Root namespace for the Image Manager interface. More...
Namespaces | |
namespace | Async |
Convenience classes for asynchronous image acquisition. | |
namespace | Barcode |
Namespace for the Barcode package. | |
namespace | CodecBridge |
Namespace for encoding and decoding videos. | |
namespace | Dnc |
Namespace for Match3D DNC (CAD-based 3D-object recognition). | |
namespace | Driver |
Namespace for driver or device related operations. | |
namespace | ErrorCodes |
Classic API error codes. | |
namespace | Foundation |
Namespace for the Foundation package. | |
namespace | GenApi |
Namespace for GenApi based device configuration. | |
namespace | GevServer |
Describes a GenICam Pixel Format Naming Convention (PFNC) compatible image memory buffer with possibly additional data. | |
namespace | Match3D |
Namespace for Match3D ICP. | |
namespace | Minos |
Namespace for the Minos package. | |
namespace | Movie2 |
Record movies with classes from this tool. | |
namespace | Pfnc |
GenICam Pixel Format Naming Convention (PFNC) related components. | |
namespace | Polimago |
Namespace for the Polimago package. | |
namespace | RTPStreaming |
Namespace for RTP streaming. | |
namespace | SampleDatabase |
Namespace for the SampleDatabase package. | |
namespace | ShapeFinder2 |
Namespace for the ShapeFinder2 package. | |
namespace | Shims |
Namespace to for standard types that are not available in C++14. | |
namespace | Spectral |
Namespace for the Spectral package. | |
namespace | UI |
Namespace for user interface components. | |
namespace | Utilities |
Namespace for helpers and utilities, which are not directly related to image processing. | |
namespace | WebStreaming |
Namespace for streaming images via web sockets. | |
Classes | |
class | AffineMatrix2D |
Compacted affine matrix describing the Common Vision Blox coordinate system. More... | |
class | AffineMatrix3D |
Affine transformation for 3D containing a transformation matrix and a translation vector. More... | |
class | Angle |
Object for convenient and type - safe handling of angles. More... | |
class | Area2D |
Structure that represents an area of interest in the image. More... | |
class | ArrayAccess |
Access trait for contiguous linear CVB image planes. More... | |
class | AtCalibrator3D |
Calibration object to apply 3D calibration of sensor provided by Automation Technology (AT) to point clouds. More... | |
class | Block |
Non-owning view on a 2d-plane of data. More... | |
class | BlockBase |
Base class for all typed Cvb::Block types. More... | |
class | Buffer |
Buffer class implementing a buffer. More... | |
class | BufferBase |
Base class of all buffers. More... | |
class | Calibrator3D |
Base calibration class to apply 3D calibration to point clouds. More... | |
class | CancellationToken |
A token to enable cancellation on wait operations. More... | |
class | CancellationTokenSource |
Provides tokens and signals tokens cancellation. More... | |
class | Circle |
Class representing a circle. More... | |
class | ComponentsPointers3D |
Point components of the point cloud. More... | |
class | Composite |
Component class is a container for CVB objects. More... | |
class | ConstRefValue |
This class holds references to K values of type T. More... | |
class | Cuboid |
3D rectangle in the X, Y and Z domain. More... | |
class | CvbException |
Special runtime exception to carry a native error code. More... | |
class | DataType |
Data type description for an image plane. More... | |
class | DenseComponentsPointers3D |
Point components of a dense point cloud. More... | |
class | DensePointCloud |
A dense Cartesian 3D point cloud object. More... | |
class | Device |
Generic CVB physical device. More... | |
class | DeviceFactory |
Factory object for creating device objects. More... | |
class | Ellipse |
Class representing an ellipse. More... | |
class | EventCookie |
Cookie used to unregister event handlers. More... | |
class | Factors3D |
Factor components to be applied in the 3D domain. More... | |
class | FactorsCalibrator3D |
Calibration object to apply factors component wise. More... | |
struct | GapFillingOptions |
Options for gap filling with function FillGaps. More... | |
class | HandleOnly |
HandleOnly class is as it says a handle only. More... | |
class | IArray |
Array interface. More... | |
class | Image |
The Common Vision Blox image. More... | |
class | ImagePlane |
Image plane information container. More... | |
class | LaserPlaneCalibrator3D |
Calibration object to appling parameters calibrating laser plane. More... | |
class | LaserPlaneHomographyCalibrator3D |
Calibration object from CVB Metric to apply a x-z homography for laser triangulation cameras. More... | |
class | LaserPlaneZigZagCalibrator3D |
Calibration object to apply zig zag algorithm to the range map of a laser triangulation cameras. More... | |
class | Line2D |
Object representing an infinite line in 2 dimensional space. More... | |
class | LinearAccessData |
Linear access properties. More... | |
class | LinearValue |
This class is memory compatible to K values of type T. More... | |
class | LocalMaximum |
Result type returned by the FindLocalMaxima function. More... | |
class | Matrix2D |
Double precision 2x2 matrix class. More... | |
class | Matrix3D |
Double precision 3x3 matrix class. More... | |
class | Matrix3DH |
Double precision row-major 4x4 matrix. More... | |
class | MatrixCalibrator3D |
Calibration object to apply 4x4 matrix to each point. More... | |
class | Mesh |
3D mesh object consisting of polygons. More... | |
class | NetworkConnection |
Basic network connection operations. More... | |
class | PanoramicMappedImage |
Mapped image of two merged source images. More... | |
class | PFNCBuffer |
PFNC buffer class implementing a pfnc buffer. More... | |
class | PinholeCameraCalibrator3D |
Calibration object to apply the pinhole camera model to the input range map. More... | |
class | PixelFormatConverter |
Helper class that takes care of pixel format conversion. More... | |
class | Plane |
Plane information container. More... | |
class | Plane3D |
A plane in 3D space in Hessian normal form. More... | |
class | PlaneEnumerator |
Lazy enumeration of planes. More... | |
class | PlaneTraits |
class | Point2D |
Multi-purpose 2D vector class. More... | |
class | Point3D |
Multi-purpose 3D vector class. More... | |
class | Point3DC |
Multi-purpose 3D vector class with confidence. More... | |
class | Point3DH |
Multi-purpose 3D vector class (homogeneous). More... | |
class | PointCloud |
A point cloud object. More... | |
class | PointCloudFactory |
Factory object for creating point cloud objects. More... | |
class | Polygon3D |
A polygon in 3D space. More... | |
class | Rect |
Rectangle object. More... | |
class | RectLT |
Rectangle object. More... | |
class | RefValue |
This class holds mutable references to K values of type T. More... | |
class | ScatterAccess |
Access trait for multiple, possibly scattered planes. More... | |
class | SensorSettings |
Class to store camera sensor settings. More... | |
class | Size2D |
Stores a pair of numbers that represents the width and the height of a subject, typically a rectangle. More... | |
class | SparseComponentsPointers3D |
Point components of a sparse point cloud. More... | |
class | SparsePointCloud |
A sparse Cartesian 3D point cloud object. More... | |
class | ValueAccessBase |
Common base class for access traits, providing typed Value access to planes. More... | |
class | ValueRange |
Container for range definitions. More... | |
class | Vpat |
Virtual Pixel Access Table. More... | |
class | WhiteBalanceFactors |
Factors for white balance correction. More... | |
class | WrappedImage |
A wrapped image wraps another pixel buffer without owning it. More... | |
Typedefs | |
using | CompositeVariant = Cvb::variant< ImagePtr, PlanePtr, PlaneEnumeratorPtr, BufferPtr, PFNCBufferPtr, HandleOnlyPtr > |
Variant that can contain the different types of composite items. | |
using | PointCloudPtr = std::shared_ptr< PointCloud > |
Convenience shared pointer for PointCloud. | |
using | DensePointCloudPtr = std::shared_ptr< DensePointCloud > |
Convenience shared pointer for DensePointCloud. | |
using | SparsePointCloudPtr = std::shared_ptr< SparsePointCloud > |
Convenience shared pointer for SparsePointCloud. | |
using | Calibrator3DPtr = std::shared_ptr< Calibrator3D > |
Convenience shared pointer for Calibrator3D. | |
using | AtCalibrator3DPtr = std::shared_ptr< AtCalibrator3D > |
Convenience shared pointer for AtCalibrator3D. | |
using | FactorsCalibrator3DPtr = std::shared_ptr< FactorsCalibrator3D > |
Convenience shared pointer for FactorsCalibrator3D. | |
using | MatrixCalibrator3DPtr = std::shared_ptr< MatrixCalibrator3D > |
Convenience shared pointer for MatrixCalibrator3D. | |
using | PinholeCameraCalibrator3DPtr = std::shared_ptr< PinholeCameraCalibrator3D > |
Convenience shared pointer for PinholeCameraCalibrator3D. | |
using | LaserPlaneCalibrator3DPtr = std::shared_ptr< LaserPlaneCalibrator3D > |
Convenience shared pointer for LaserPlaneCalibrator3D. | |
using | LaserPlaneHomographyCalibrator3DPtr = std::shared_ptr< LaserPlaneHomographyCalibrator3D > |
Convenience shared pointer for LaserPlaneHomographyCalibrator3D. | |
using | LaserPlaneZigZagCalibrator3DPtr = std::shared_ptr< LaserPlaneZigZagCalibrator3D > |
Convenience shared pointer for LaserPlaneZigZagCalibrator3D. | |
template<class T > | |
using | MeshPtr = std::shared_ptr< Mesh< T > > |
Convenience shared pointer for Mesh. | |
using | BufferPtr = std::shared_ptr< Buffer > |
Convenience shared pointer for Buffer. | |
using | BufferBasePtr = std::shared_ptr< BufferBase > |
Convenience shared pointer for BufferBase. | |
using | PFNCBufferPtr = std::shared_ptr< PFNCBuffer > |
Convenience shared pointer for PFNCBuffer. | |
using | PlanePtr = std::shared_ptr< Plane > |
Convenience shared pointer for Plane. | |
using | PlaneEnumeratorPtr = std::shared_ptr< PlaneEnumerator > |
Convenience shared pointer for PlaneEnumerator. | |
using | ImagePtr = std::shared_ptr< Image > |
Convenience shared pointer for Image. | |
using | WrappedImagePtr = std::shared_ptr< WrappedImage > |
Convenience shared pointer for WrappedImage. | |
using | PanoramicMappedImagePtr = std::shared_ptr< PanoramicMappedImage > |
Convenience shared pointer for PanoramicMappedImageImage. | |
using | DevicePtr = std::shared_ptr< Device > |
Convenience shared pointer for Device. | |
using | CompositePtr = std::shared_ptr< Composite > |
Convenience shared pointer for Composite. | |
using | HandleOnlyPtr = std::shared_ptr< HandleOnly > |
Convenience shared pointer for HandleOnly. | |
using | CancellationTokenPtr = std::shared_ptr< CancellationToken > |
Convenience shared pointer for CancellationToken. | |
using | CancellationTokenSourcePtr = std::shared_ptr< CancellationTokenSource > |
Convenience shared pointer for CancellationTokenSource. | |
using | PixelFormatConverterPtr = std::shared_ptr< PixelFormatConverter > |
Convenience shared pointer for PixelFormatConverter. | |
template<class T > | |
using | Vector2D = Point2D< T > |
Alias for Point2D. | |
template<class T > | |
using | Vector3D = Point3D< T > |
Alias for Point3D. | |
template<class T > | |
using | Vector3DC = Point3DC< T > |
Alias for Point3D. | |
template<class T > | |
using | Vector3DH = Point3DH< T > |
Alias for Point3D. | |
using | String = std::string |
String for wide characters or unicode characters. More... | |
using | StringStream = std::stringstream |
String stream for wide characters or unicode characters. More... | |
using | Char = char |
Character type for wide characters or unicode characters. More... | |
using | Regex = std::regex |
Regular expression for wide characters or unicode characters. More... | |
Enumerations | |
enum class | PointCloudFlags { Float = CExports::CVC3DPCF_DTFloat , Double = CExports::CVC3DPCF_DTDouble , XYZ = CExports::CVC3DPCF_XYZ , XYZW = CExports::CVC3DPCF_XYZW , XYZConfidence = CExports::CVC3DPCF_XYZConfidence , WithConfidence = CExports::CVC3DPCF_WithConfidence , NoExtrinsic = CExports::CVC3DPCF_NoExtrinsic , NoMeshIndices = CExports::CVC3DPCF_NoMeshIndices } |
Flags for creating point clouds. More... | |
enum | PointCloudFileFormat { Ascii = CExports::CVC3DPCFF_Ascii , Ply = CExports::CVC3DPCFF_Ply , Stl = CExports::CVC3DPCFF_Stl , WavefrontObj = CExports::CVC3DPCFF_WavefrontObj , Tiff = CExports::CVC3DPCFF_Tiff } |
Supported point cloud point formats. More... | |
enum class | PointCloudLayout { Invalid = CExports::CVC3DPCL_Invalid , Linear = CExports::CVC3DPCL_Linear , SeparatePlanar = CExports::CVC3DPCL_SeparatePlanar , Planar = CExports::CVC3DPCL_Planar , Interleaved = CExports::CVC3DPCL_Interleaved } |
Supported point cloud point layouts. More... | |
enum class | DownSampleMode { DownsampleByFactor = CExports::CVC3DDownsampleByFactor , RemoveRandomly = CExports::CVC3DRemoveRandomly } |
Specifies how to remove points from a point cloud. More... | |
enum class | SensorPixelPosition { Absolute = CExports::CVC3DSPP_Absolute , Relative = CExports::CVC3DSPP_Relative } |
Indicates pixel position on sensor. More... | |
enum class | SensorPixelsMirrored { None = CExports::CVC3DSPM_None , X = CExports::CVC3DSPM_X , Y = CExports::CVC3DSPM_Y , XY = CExports::CVC3DSPM_XY } |
Indicates if sensor pixels are mirrored in rangemap. More... | |
enum class | CropRange { CropWithinRange = CExports::CVC3DC_CropWithinRange , CropOutsideRange = CExports::CVC3DC_CropOutsideRange } |
Indicates cropping range. More... | |
enum class | CropDirection { Below = 0 , Above = 1 } |
Indicates cropping direction. More... | |
enum class | GapFillingMethod { LinearInterpolation = 0 } |
Supported methods for gap filling. More... | |
enum class | PixelDataType { Undefined , UInt , Int , Float , ComplexPackedFloat } |
Defines the numeric data type of one pixel. More... | |
enum class | ColorModel { RGBGuess = CExports::CM_Guess_RGB , MonoGuess = CExports::CM_Guess_Mono , Unknown = CExports::CM_Unknown , Mono = CExports::CM_Mono , RGB = CExports::CM_RGB , YUV = CExports::CM_YUV , HSI = CExports::CM_HSI , YCbCr = CExports::CM_YCbCr , CieLUV = CExports::CM_LUV , CieLab = CExports::CM_Lab , HLS = CExports::CM_HLS , YCC = CExports::CM_YCC , HSV = CExports::CM_HSV , CieXYZ = CExports::CM_XYZ } |
Color model that this image is using. More... | |
enum class | DeviceUpdateMode { UpdateDeviceImage , NewDeviceImage } |
Defines how to treat the optional device image, when the device itself is updated. More... | |
enum class | PlaneNormalization { Individual , Identical } |
Plane handling for normalization. More... | |
enum class | CoordinateSystemType { PixelCoordinates , ImageCoordinates } |
Enumeration of the different available coordinate systems that an Area of interest may be defined in. More... | |
enum class | SubPixelMode { ParabolicFast = CExports::TSubPixelMode::SP_Parabolic_Fast , ParabolicAccurate = CExports::TSubPixelMode::SP_Parabolic_Accurate , Gaussian = CExports::TSubPixelMode::SP_Gauss } |
Method for determining sub pixel accuracy when working with the FindLocalMaxima functions. More... | |
enum class | Neighborhood { Use3x3 = 1 , Use5x5 = 2 , Use7x7 = 3 , Use9x9 = 4 } |
Neighborhood to use in sub pixel calculation of local maxima. More... | |
enum class | MappingOption { CopyPixels , LinkPixels } |
Mapping options when creating a (potentially) mapped image. More... | |
enum class | RotationMap { By90Degrees = CExports::VPATROT_90 , By180Degrees = CExports::VPATROT_180 , By270Degrees = CExports::VPATROT_270 } |
Amount of rotation to apply when mapping an image. More... | |
enum class | WaitStatus { Ok = CExports::CVDWS_Ok , Timeout = CExports::CVDWS_Timeout , Abort = CExports::CVDWS_Canceled } |
Status after waiting for an image to be returned. More... | |
enum class | PlaneRole { Undefined = CExports::CVCPR_Undefined , PixMono = CExports::CVCPR_PixMono , PixRGB_R = CExports::CVCPR_PixRGB_R , PixRGB_G = CExports::CVCPR_PixRGB_G , PixRGB_B = CExports::CVCPR_PixRGB_B , PixYUV_Y = CExports::CVCPR_PixYUV_Y , PixYUV_U = CExports::CVCPR_PixYUV_U , PixYUV_V = CExports::CVCPR_PixYUV_V , PixHSV_H = CExports::CVCPR_PixHSV_H , PixHSV_S = CExports::CVCPR_PixHSV_S , PixHSV_V = CExports::CVCPR_PixHSV_V , PixLAB_L = CExports::CVCPR_PixLAB_L , PixLAB_A = CExports::CVCPR_PixLAB_A , PixLAB_B = CExports::CVCPR_PixLAB_B , PixConfidence = CExports::CVCPR_PixConfidence , PixRGB_RGB = CExports::CVCPR_PixRGB_RGB , CoordCartesian_X = CExports::CVCPR_CoordCartesian_X , CoordCartesian_Y = CExports::CVCPR_CoordCartesian_Y , CoordCartesian_Z = CExports::CVCPR_CoordCartesian_Z , CoordCartesian_W = CExports::CVCPR_CoordCartesian_W , CoordPolar_Rho = CExports::CVCPR_CoordPolar_Rho , CoordPolar_Phi = CExports::CVCPR_CoordPolar_Phi , CoordCylindrical_Rho = CExports::CVCPR_CoordCylindrical_Rho , CoordCylindrical_Phi = CExports::CVCPR_CoordCylindrical_Phi , CoordCylindrical_Z = CExports::CVCPR_CoordCylindrical_Z , CoordSpherical_Rho = CExports::CVCPR_CoordSpherical_Rho , CoordSpherical_Phi = CExports::CVCPR_CoordSpherical_Phi , CoordSpherical_Theta = CExports::CVCPR_CoordSpherical_Theta , Normal_X = CExports::CVCPR_Normal_X , Normal_Y = CExports::CVCPR_Normal_Y , Normal_Z = CExports::CVCPR_Normal_Z , PointPlanarity = CExports::CVCPR_Point_Planarity , PointVariation = CExports::CVCPR_Point_Variation , PointSphericity = CExports::CVCPR_Point_Sphericity , PointLinearity = CExports::CVCPR_Point_Linearity , PointCurvature = CExports::CVCPR_Point_Curvature , Custom = CExports::CVCPR_Custom } |
A plane role describes the components of the plane. They can coarsely be separated in two sets. More... | |
enum class | PanoramaDirection { Horizontal = CExports::PM_Horizontal , Vertical = CExports::PM_Vertical } |
Defines the direction of the panoramic image. More... | |
enum class | ConnectionState { NotSupported , Connected , Disconnected } |
Current connection state of the Device. More... | |
enum class | ConversionMode { Automatic } |
Mode used by conversion to dense point cloud. More... | |
Functions | |
AffineMatrix2D | operator+ (const AffineMatrix2D &lhs, const AffineMatrix2D &rhs) noexcept |
Add two affine matrices. More... | |
AffineMatrix2D | operator- (const AffineMatrix2D &lhs, const AffineMatrix2D &rhs) noexcept |
Subtract two affine matrices. More... | |
AffineMatrix2D | operator* (const AffineMatrix2D &lhs, const AffineMatrix2D &rhs) noexcept |
Multiply two affine matrices. More... | |
Point2D< double > | operator* (const AffineMatrix2D &lhs, const Point2D< double > &rhs) noexcept |
Multiply affine matrix with 2D point. More... | |
AffineMatrix2D | operator* (const AffineMatrix2D &lhs, const double &rhs) noexcept |
Multiply affine matrix with scalar. More... | |
AffineMatrix2D | operator* (const double &lhs, const AffineMatrix2D &rhs) noexcept |
Multiply scalar with affine matrix . More... | |
AffineMatrix2D | operator/ (const AffineMatrix2D &lhs, const double &rhs) |
Divide affine matrix by scalar. More... | |
AffineMatrix3D | operator+ (const AffineMatrix3D &lhs, const AffineMatrix3D &rhs) noexcept |
Add two transformations. More... | |
AffineMatrix3D | operator- (const AffineMatrix3D &lhs, const AffineMatrix3D &rhs) noexcept |
Subtract two transformations. More... | |
AffineMatrix3D | operator* (const AffineMatrix3D &lhs, const AffineMatrix3D &rhs) |
Multiply two transformations. More... | |
AffineMatrix3D | operator* (const AffineMatrix3D &lhs, const double &rhs) noexcept |
Multiply transformation with scalar. More... | |
AffineMatrix3D | operator* (const double &lhs, const AffineMatrix3D &rhs) noexcept |
Multiply scalar with transformation. More... | |
AffineMatrix3D | operator/ (const AffineMatrix3D &lhs, const double &rhs) |
Divide transformation by scalar. More... | |
std::unique_ptr< Image > | AffineTransform (const Image &image, AffineMatrix2D affineMatrix, Area2D area) |
Creates an affine transformation (homogeneous matrix transformation) of an area of the given image. More... | |
std::unique_ptr< Image > | AffineTransform (const Image &image, AffineMatrix2D affineMatrix) |
Creates an affine transformation (homogeneous matrix transformation) of the whole image. More... | |
std::unique_ptr< Image > | LinearTransform (const Image &image, Matrix2D matrix) |
Creates a linear transformation (matrix transformation). More... | |
std::unique_ptr< Image > | MapTo8Bit (const Image &image, PlaneNormalization planeNormalization=PlaneNormalization::Identical) |
Take an input image and scale the pixel values to fit into the 8 bit value range. More... | |
std::unique_ptr< Image > | NormalizeMinMax (const Image &image, double targetMin, double targetMax) |
Normalize an input image using min/max normalization (the gray values of the image will be stretched or compressed to fit the input target minimum and maximum values). More... | |
std::unique_ptr< Image > | NormalizeMeanVariance (const Image &image, double targetMean, double targetVariance) |
Normalize an input image using mean/variance normalization (the gray values of the image will be stretched modified to generate a histogram as close as possible to the input target mean and variance values). More... | |
std::unique_ptr< Image > | PolarTransform (const Image &image, Point2D< double > center, double innerRadius, double outerRadius, Angle startAngle, Angle totalAngle) |
Create a polar transformation (i.e. unwrap a ring structure from inside source image into a rectangular image). More... | |
std::unique_ptr< Image > | PolarTransform (const Image &image, Point2D< double > center, double innerRadius, double outerRadius) |
Create a polar transformation (i.e. unwrap a ring structure from inside source image into a rectangular image). More... | |
std::unique_ptr< Image > | InversePolarTransform (const Image &image, Angle startAngle, double innerRadius) |
void | InversePolarTransformToDst (const Image &imageSrc, Point2D< double > center, Angle startAngle, double innerRadius, Image &imageDst) |
Create an inverse polar transformed image (i.e. transform an unwrapped image back into a ring structure). More... | |
std::vector< int > | Histogram (const ImagePlane &plane, Area2D aoi, double density=1.0) |
Gather and return the histogram from an 8 bits per pixel unsigned image. More... | |
std::vector< int > | Histogram (const ImagePlane &plane, double density=1.0) |
Gather and return the histogram from an 8 bits per pixel unsigned image. More... | |
std::vector< LocalMaximum > | FindLocalMaxima (const ImagePlane &plane, int locality, double threshold, Rect< int > aoi) |
Find local maxima in the input image. More... | |
std::vector< LocalMaximum > | FindLocalMaxima (const ImagePlane &plane, int locality, double threshold) |
Find local maxima in the input image. More... | |
std::vector< LocalMaximum > | FindLocalMaxima (const ImagePlane &plane, int locality, double threshold, SubPixelMode mode, Neighborhood radius, Rect< int > aoi) |
Find sub pixel accurate local maxima in the input image. More... | |
std::vector< LocalMaximum > | FindLocalMaxima (const ImagePlane &plane, int locality, double threshold, SubPixelMode mode, Neighborhood radius) |
Find sub pixel accurate local maxima in the input image. More... | |
Angle | operator+ (const Angle &lhs, const Angle &rhs) |
Add two angles. More... | |
Angle | operator- (const Angle &lhs, const Angle &rhs) |
Subtract two angles. More... | |
Angle | operator/ (const Angle &lhs, const double &rhs) |
Divides an angle by a value. More... | |
Angle | operator* (const Angle &lhs, const double &rhs) |
Multiplies an angle with a value. More... | |
Angle | operator* (const double &lhs, const Angle &rhs) |
Multiplies value with an angle. More... | |
Angle | Abs (Angle angle) noexcept |
Absolute value of an angle. More... | |
Angle | Acos (double d) noexcept |
Returns the angle whose cosine is the specified number. More... | |
Angle | Asin (double d) noexcept |
Returns the angle whose sine is the specified number. More... | |
Angle | Atan (double d) noexcept |
Returns the angle whose tangent is the specified number. More... | |
Angle | Atan2 (double y, double x) noexcept |
Returns the angle whose tangent is the quotient of two specified numbers. More... | |
double | Cos (Angle angle) noexcept |
Returns the cosine of an angle. More... | |
double | Cosh (Angle angle) noexcept |
Returns the hyperbolic cosine of an angle. More... | |
double | Sin (Angle angle) noexcept |
Returns the sine of an angle. More... | |
double | Sinh (Angle angle) noexcept |
Returns the hyperbolic sine of an angle. More... | |
double | Tan (Angle angle) noexcept |
Returns the tangent of an angle. More... | |
double | Tanh (Angle angle) noexcept |
Returns the hyperbolic tangent of an angle. More... | |
int | Sign (Angle angle) noexcept |
Returns a value indicating the sign of an Angle. More... | |
Angle | Max (Angle a, Angle b) noexcept |
Returns the bigger of two angles. More... | |
Angle | Min (Angle a, Angle b) noexcept |
Returns the smaller of two angles. More... | |
Matrix2D | operator+ (const Matrix2D &lhs, const Matrix2D &rhs) |
Add two matrices. More... | |
Matrix2D | operator- (const Matrix2D &lhs, const Matrix2D &rhs) |
Substract two matrices. More... | |
Matrix2D | operator* (const Matrix2D &lhs, const Matrix2D &rhs) |
Multiply two matrices. More... | |
Point2D< double > | operator* (const Matrix2D &lhs, const Point2D< double > &rhs) |
Multiply matrix with 2D point. More... | |
Matrix2D | operator* (const Matrix2D &lhs, const double &rhs) |
Multiply matrix with scalar. More... | |
Matrix2D | operator* (const double &lhs, const Matrix2D &rhs) |
Multiply scalar with matrix . More... | |
Matrix2D | operator/ (const Matrix2D &lhs, const double &rhs) |
Divide matrix by scalar. More... | |
Matrix3D | operator+ (const Matrix3D &lhs, const Matrix3D &rhs) |
Add two matrices. More... | |
Matrix3D | operator- (const Matrix3D &lhs, const Matrix3D &rhs) |
Subtract two matrices. More... | |
Matrix3D | operator* (const Matrix3D &lhs, const Matrix3D &rhs) |
Multiply two matrices. More... | |
Point3D< double > | operator* (const Matrix3D &lhs, const Point3D< double > &rhs) |
Multiply matrix with 3D point. More... | |
Matrix3D | operator* (const Matrix3D &lhs, const double &rhs) |
Multiply matrix with scalar. More... | |
Matrix3D | operator* (const double &lhs, const Matrix3D &rhs) |
Multiply scalar with matrix . More... | |
Matrix3D | operator/ (const Matrix3D &lhs, const double &rhs) |
Divide matrix by scalar. More... | |
Matrix3DH | operator+ (const Matrix3DH &lhs, const Matrix3DH &rhs) |
Add two matrices. More... | |
Matrix3DH | operator- (const Matrix3DH &lhs, const Matrix3DH &rhs) |
Subtract two matrices. More... | |
Point3DH< double > | operator* (const Matrix3DH &lhs, const Point3DH< double > &rhs) |
Multiply matrix with 3D point (homogeneous). More... | |
Matrix3DH | operator* (const Matrix3DH &lhs, const double &rhs) |
Multiply matrix with scalar. More... | |
Matrix3DH | operator* (const double &lhs, const Matrix3DH &rhs) |
Multiply scalar with matrix . More... | |
Matrix3DH | operator/ (const Matrix3DH &lhs, const double &rhs) |
Divide matrix by scalar. More... | |
template<class T > | |
Point2D< T > | operator+ (const Point2D< T > &lhs, const Point2D< T > &rhs) |
Add two points. More... | |
template<class T > | |
Point2D< T > | operator- (const Point2D< T > &lhs, const Point2D< T > &rhs) |
Subtracts two points. More... | |
template<class T > | |
T | operator* (const Point2D< T > &lhs, const Point2D< T > &rhs) |
Inner product of two point vectors. More... | |
template<class T > | |
Point2D< T > | operator* (const Point2D< T > &lhs, const T &rhs) |
Multiply point with scalar. More... | |
template<class T > | |
Point2D< T > | operator* (const T &lhs, const Point2D< T > &rhs) |
Multiply scalar with point. More... | |
template<class T > | |
Point2D< T > | operator/ (const Point2D< T > &lhs, const T &rhs) |
Divide point by scalar. More... | |
template<class T > | |
Point2D< int > | Round (const Point2D< T > &rhs) noexcept |
Round to an integer point. More... | |
template<class T > | |
Point3D< T > | operator- (const Point3D< T > &lhs, const Point3D< T > &rhs) |
Subtracts two points. More... | |
template<class T > | |
T | operator* (const Point3D< T > &lhs, const Point3D< T > &rhs) |
Inner product of two point vectors. More... | |
template<class T > | |
Point3D< T > | operator* (const Point3D< T > &lhs, const T &rhs) |
Multiply point with scalar. More... | |
template<class T > | |
Point3D< T > | operator* (const T &lhs, const Point3D< T > &rhs) |
Multiply scalar with point. More... | |
template<class T > | |
Point3D< T > | operator/ (const Point3D< T > &lhs, const T &rhs) |
Divide point by scalar. More... | |
template<class T > | |
Point3D< int > | Round (const Point3D< T > &rhs) noexcept |
Round to an integer point. More... | |
template<class T > | |
Point3DC< T > | operator- (const Point3DC< T > &lhs, const Point3DC< T > &rhs) |
Subtracts two points. More... | |
template<class T > | |
T | operator* (const Point3DC< T > &lhs, const Point3DC< T > &rhs) |
Inner product of two point vectors. More... | |
template<class T > | |
Point3DC< T > | operator* (const Point3DC< T > &lhs, const T &rhs) |
Multiply point with scalar. More... | |
template<class T > | |
Point3DC< T > | operator* (const T &lhs, const Point3DC< T > &rhs) |
Multiply scalar with point. More... | |
template<class T > | |
Point3DC< T > | operator/ (const Point3DC< T > &lhs, const T &rhs) |
Divide point by scalar. More... | |
template<class T > | |
Point3DH< T > | operator- (const Point3DH< T > &lhs, const Point3DH< T > &rhs) |
Subtracts two points. More... | |
template<class T > | |
T | operator* (const Point3DH< T > &lhs, const Point3DH< T > &rhs) |
Inner product of two point vectors. More... | |
template<class T > | |
Point3DH< T > | operator* (const Point3DH< T > &lhs, const T &rhs) |
Multiply point with scalar. More... | |
template<class T > | |
Point3DH< T > | operator* (const T &lhs, const Point3DH< T > &rhs) |
Multiply scalar with point. More... | |
template<class T > | |
Point3DH< T > | operator/ (const Point3DH< T > &lhs, const T &rhs) |
Divide point by scalar. More... | |
CVB_BEGIN_INLINE_NS std::unique_ptr< Image > | DifferenceMap (const ImagePlane &rangeMap1, const ImagePlane &rangeMap2) |
Subtracts the given rangeMap2 from rangeMap1. More... | |
void | FillGaps (const ImagePlane &rangeMap, const GapFillingOptions &options) |
This function fills gaps of given range map rangeMap. More... | |
template<class T > | |
Rect< int > | Round (const Rect< T > &rhs) noexcept |
Round to an integer rectangle. More... | |
template<class T > | |
RectLT< int > | Round (const RectLT< T > &rhs) noexcept |
Round to an integer rectangle. More... | |
template<class T > | |
Size2D< int > | Round (const Size2D< T > &rhs) noexcept |
Rounds to an integer size. More... | |
template<class T > | |
ValueRange< int > | Round (const ValueRange< T > &rhs) noexcept |
Rounds to an integer value range. More... | |
WhiteBalanceFactors | CalculateWhiteBalanceFactors (const Image &image, Area2D aoi) |
Calculate the red, green and blue gain factor for white balancing. More... | |
void | ApplyWhiteBalanceFactors (const Image &image, WhiteBalanceFactors factors) |
Applies the white balance factors to the given image. More... | |
Variables | |
static const constexpr int | Dynamic = -1 |
Use with ScatterAccess for runtime variable number of planes. | |
Root namespace for the Image Manager interface.
This namespace groups all parts of the C++ interface to the classic CVB API. The classes directly within this namespace are usually your entry point when programming.
using Char = char |
Character type for wide characters or unicode characters.
Wide characters are default on windows, to use unicode characters define UNICODE. If you want to use platform independent string literals you may use the CVB_LIT macro.
using Regex = std::regex |
Regular expression for wide characters or unicode characters.
Wide characters are default on windows, to use unicode characters define UNICODE. If you want to use platform independent string literals you may use the CVB_LIT macro.
using String = std::string |
String for wide characters or unicode characters.
Wide characters are default on windows, to use unicode characters define UNICODE. If you want to use platform independent string literals you may use the CVB_LIT macro.
using StringStream = std::stringstream |
String stream for wide characters or unicode characters.
Wide characters are default on windows, to use unicode characters define UNICODE. If you want to use platform independent string literals you may use the CVB_LIT macro.
|
strong |
Color model that this image is using.
|
strong |
|
strong |
|
strong |
Enumeration of the different available coordinate systems that an Area of interest may be defined in.
|
strong |
|
strong |
|
strong |
Defines how to treat the optional device image, when the device itself is updated.
A method containing this as a parameter indicates a handle change. This invalidates the old handle in a way that no interfaces are available anymore. The only thing remaining is the old ring buffer, but only with access to the last synchronized buffer.
|
strong |
|
strong |
|
strong |
|
strong |
Neighborhood to use in sub pixel calculation of local maxima.
The bigger the neighborhood for calculation is, the longer the sub pixel fit will take.
|
strong |
|
strong |
|
strong |
Plane handling for normalization.
Enumerator | |
---|---|
Individual | Each plane is normalized separately. |
Identical | All planes are normalize the same way. |
|
strong |
A plane role describes the components of the plane. They can coarsely be separated in two sets.
enum PointCloudFileFormat |
Supported point cloud point formats.
Enumerator | |
---|---|
Ascii | Ascii file format. This format is usually specified by the filename extensions: .asc, .xyz, .pts or .txt. Mesh information is ignored when loading or storing with this format. |
Ply | Polygon file format. This format is usually specified by the filename extension: .ply It can be in binary or text format. Reading supports both formats, while writing will be in binary. Loading and storing mesh information is supported with both reads and writes. |
Stl | Stereo lithography file format. This format is usually specified by the filename extension: .stl Loading mesh information is supported. For writing stl, mesh information must be present.* |
Tiff | TIFF file format. This format is usually specified by the filename extensions: .tif or .tiff Reading and writing is supported only with files, not memory. Mesh information is ignored when loading or storing with this format. |
|
strong |
Flags for creating point clouds.
|
strong |
Supported point cloud point layouts.
Enumerator | |
---|---|
Invalid | No known/supported point cloud format. |
Linear | No known buffer layout. For this layout only the plane roles X, Y and Z are known with their increments. Thus the PointCloud composite either has no buffer or no buffer, that can be mapped via a PFNC value. |
SeparatePlanar | Each plane is in its own, contiguous buffer. For each plane role X, Y and Z exists one distinct buffer. The increment to the next element is the element size (as in a simple array). If the component data types are float, the composite has at least three buffers with PFNC values Coord3D_A32f, Coord3D_B32f and Coord3D_C32f. |
Planar | All planes are in one planar, contiguous buffer. All plane roles X, Y and Z lie component wise one after the other. First all x, then all y and finally all z components. If the component data type is float, the composite has at least one buffer with a PFNC value of Coord3D_ABC32f_Planar. |
Interleaved | All points are stored x, y, z interleaved as in Point3D. All plane roles X, Y and Z lie point wise one after the other. If the component data type is float, the composite has at least one buffer with a PFNC value of Coord3D_ABC32f. |
|
strong |
|
strong |
|
strong |
Indicates if sensor pixels are mirrored in rangemap.
|
strong |
Method for determining sub pixel accuracy when working with the FindLocalMaxima functions.
|
strong |
Absolute value of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the angle whose cosine is the specified number.
[in] | d | Cosine. |
Does | not throw any exception. |
|
inline |
Creates an affine transformation (homogeneous matrix transformation) of the whole image.
[in] | image | Source image. |
[in] | affineMatrix | Matrix to transform the image. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Creates an affine transformation (homogeneous matrix transformation) of an area of the given image.
[in] | image | Source image. |
[in] | affineMatrix | Matrix to transform the image, |
[in] | area | Area of the image to transform. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Applies the white balance factors to the given image.
[in] | image | Image to apply white-balance factors to. |
[in] | factors | Gain factors to apply. |
Any | exception derived from std::exception including CvbException. |
|
inlinenoexcept |
Returns the angle whose sine is the specified number.
[in] | d | Sine. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the angle whose tangent is the specified number.
[in] | d | Tangent. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the angle whose tangent is the quotient of two specified numbers.
[in] | y | Y parameter. |
[in] | x | X parameter. |
Does | not throw any exception. |
|
inline |
Calculate the red, green and blue gain factor for white balancing.
[in] | image | Image on which the gain factors are to be calculated. |
[in] | aoi | Area of interest that is assumed to be the neutral color. |
Any | exception derived from std::exception including CvbException. |
Floating-point valued images must not have negative pixel values for this operation to yield useful output.
|
inlinenoexcept |
Returns the cosine of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the hyperbolic cosine of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inline |
Subtracts the given rangeMap2 from rangeMap1.
Only range maps with floating point and unsigned integer DataType values are supported. For unsigned integer data types, the following DataType::BytesPerPixel values are supported: 1, 2 and 4. Note, that only linear access is supported (check with function ImagePlane::TryLinearAccess).
The output difference map will be double for double input images, for all other images it will be float.
[in] | rangeMap1 | Range map object to subtract from. |
[in] | rangeMap2 | Range map object to subtract from rangeMap1. |
Any | exception derived from std::exception including CvbException. |
|
inline |
This function fills gaps of given range map rangeMap.
Gaps will be filled by interpolating values of pixels surrounding the gap. If larger gaps should be ignored, the maximum size of gaps to be filled has to be set with options.
Only range maps with floating point and unsigned integer DataType values are supported. For unsigned integer data types, the following DataType::BytesPerPixel values are supported: 1, 2 and 4. Note, that only linear access is supported (check with function ImagePlane::TryLinearAccess).
[in] | rangeMap | Range map where gaps should be filled. |
[in] | options | Options for gap filling. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Find local maxima in the input image.
[in] | plane | Image plane in which to look for maxima. |
[in] | locality | Minimum distance between two valid maxima; if two maxima fall within this distance (measured using the L1 norm), the one with the lower gray value will be removed from the result. |
[in] | threshold | Minimum gray value a local maximum must have for being reported. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Find local maxima in the input image.
[in] | plane | Image plane in which to look for maxima. |
[in] | locality | Minimum distance between two valid maxima; if two maxima fall within this distance (measured using the L1 norm), the one with the lower gray value will be removed from the result. |
[in] | threshold | Minimum gray value a local maximum must have for being reported. |
[in] | aoi | Region of interest in which to look for maxima. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Find sub pixel accurate local maxima in the input image.
[in] | plane | Image plane in which to look for maxima. |
[in] | locality | Minimum distance between two valid maxima; if two maxima fall within this distance (measured using the L1 norm), the one with the lower gray value will be removed from the result list. |
[in] | threshold | Minimum gray value a local maximum must have for being reported. |
[in] | mode | Mode to be used for determining sub pixel accuracy. |
[in] | radius | Neighborhood to take account in the sub pixel calculation. |
Any | exception derived from std::exception including CvbException. |
Sub pixel accuracy is achieved by assuming a Gaussian or parabolic gray value distribution around a local maximum that can be fitted into the image data.
|
inline |
Find sub pixel accurate local maxima in the input image.
[in] | plane | Image plane in which to look for maxima. |
[in] | locality | Minimum distance between two valid maxima; if two maxima fall within this distance (measured using the L1 norm), the one with the lower gray value will be removed from the result list. |
[in] | threshold | Minimum gray value a local maximum must have for being reported. |
[in] | mode | Mode to be used for determining sub pixel accuracy. |
[in] | radius | Neighborhood to take account in the sub pixel calculation. |
[in] | aoi | Region of interest in which to look for maxima. |
Any | exception derived from std::exception including CvbException. |
Sub pixel accuracy is achieved by assuming a Gaussian or parabolic gray value distribution around a local maximum that can be fitted into the image data.
|
inline |
Gather and return the histogram from an 8 bits per pixel unsigned image.
[in] | plane | Plane to gather the histogram from. |
[in] | aoi | Area in which to gather the histogram. |
[in] | density | Scan density to generate the histogram. It must be in the range [0...1]. Lower densities result in higher processing speed, but will also yield histograms, which are notably jagged due to the poor statistics. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Gather and return the histogram from an 8 bits per pixel unsigned image.
[in] | plane | Plane to gather the histogram from. |
[in] | density | Scan density to gather the histogram with; must be in the range [0...1]; lower densities result in higher processing speed, but will also yield histograms which are notably jagged due to the poor statistics |
Any | exception derived from std::exception including CvbException. |
|
inline |
[in] | image | Source image. |
[in] | startAngle | Orientation of the start (the total azimuth will be determined from the input image). |
[in] | innerRadius | Inner radius of the ring (the outer radius will be determined from the input image). |
Any | exception derived from std::exception including CvbException. |
Linear interpolation is being used for the transformation.
|
inline |
Create an inverse polar transformed image (i.e. transform an unwrapped image back into a ring structure).
[in] | imageSrc | Source image |
[in] | center | Center for the inverse transformation (i.e. the point around which the ring will be constructed). |
[in] | startAngle | Orientation of the start (the total azimuth will be determined from the input image). |
[in] | innerRadius | Inner radius of the ring (the outer radius will be determined from the input image). |
[in] | imageDst | Destination image into which the unwrap result will be painted. |
Any | exception derived from std::exception including CvbException. |
Linear interpolation is being used for the transformation.
|
inline |
Creates a linear transformation (matrix transformation).
[in] | image | Source image. |
[in] | matrix | Matrix to transform the image. |
Any | exception derived from std::exception including CvbException. |
Linear interpolation is used for the transformation.
|
inline |
Take an input image and scale the pixel values to fit into the 8 bit value range.
Any | exception derived from std::exception including CvbException. |
Returns the bigger of two angles.
[in] | a | First angle. |
[in] | b | Second angle. |
Does | not throw any exception. |
Returns the smaller of two angles.
[in] | a | First angle. |
[in] | b | Second angle. |
Does | not throw any exception. |
|
inline |
Normalize an input image using mean/variance normalization (the gray values of the image will be stretched modified to generate a histogram as close as possible to the input target mean and variance values).
[in] | image | Image to be normalized. |
[in] | targetMean | Target mean value to achieve. |
[in] | targetVariance | Target variance value to achieve. |
Any | exception derived from std::exception including CvbException. |
|
inline |
Normalize an input image using min/max normalization (the gray values of the image will be stretched or compressed to fit the input target minimum and maximum values).
[in] | image | Image to be normalized. |
[in] | targetMin | Target minimum value to achieve. |
[in] | targetMax | Target maximum value to achieve. |
Any | exception derived from std::exception including CvbException. |
|
inlinenoexcept |
Multiply two affine matrices.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side affine matrix. |
Does | not throw any exception. |
|
inlinenoexcept |
Multiply affine matrix with scalar.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
|
inlinenoexcept |
Multiply affine matrix with 2D point.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
|
inline |
Multiply two transformations.
[in] | lhs | Right hand side transformation. |
[in] | rhs | Left hand side transformation. |
Any | exception derived from std::exception including CvbException. |
|
inlinenoexcept |
Multiply transformation with scalar.
[in] | lhs | Right hand side transformation. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiplies an angle with a value.
[in] | lhs | Right hand side angle. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
|
inlinenoexcept |
Multiply scalar with affine matrix .
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side affine matrix. |
Does | not throw any exception. |
|
inlinenoexcept |
Multiply scalar with transformation.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side transformation. |
Does | not throw any exception. |
Multiplies value with an angle.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side angle. |
Does | not throw any exception. |
Multiply scalar with matrix .
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Multiply scalar with matrix .
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Multiply scalar with matrix .
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Multiply matrix with scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Multiply matrix with 2D point.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Multiply matrix with scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Any | exception derived from std::exception including CvbException. |
Multiply matrix with 3D point.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Multiply matrix with scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply matrix with 3D point (homogeneous).
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Inner product of two point vectors.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply point with scalar.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Inner product of two point vectors.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply point with scalar.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Inner product of two point vectors.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply point with scalar.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Inner product of two point vectors.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply point with scalar.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Multiply scalar with point.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Multiply scalar with point.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Multiply scalar with point.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Multiply scalar with point.
[in] | lhs | Right hand side value. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
|
inlinenoexcept |
Add two affine matrices.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side affine matrix. |
Does | not throw any exception. |
|
inlinenoexcept |
Add two transformations.
[in] | lhs | Right hand side transformation. |
[in] | rhs | Left hand side transformation. |
Does | not throw any exception. |
Add two angles.
[in] | lhs | Right hand side angle. |
[in] | rhs | Left hand side angle. |
Does | not throw any exception. |
Add two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Add two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Add two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Add two points.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
|
inlinenoexcept |
Subtract two affine matrices.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side affine matrix. |
Does | not throw any exception. |
|
inlinenoexcept |
Subtract two transformations.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side affine matrix. |
Does | not throw any exception. |
Subtract two angles.
[in] | lhs | Right hand side angle. |
[in] | rhs | Left hand side angle. |
Does | not throw any exception. |
Substract two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Subtract two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Subtract two matrices.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side matrix. |
Does | not throw any exception. |
Subtracts two points.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Subtracts two points.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Subtracts two points.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
Subtracts two points.
[in] | lhs | Right hand side point. |
[in] | rhs | Left hand side point. |
Does | not throw any exception. |
|
inline |
Divide affine matrix by scalar.
[in] | lhs | Right hand side affine matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
|
inline |
Divide transformation by scalar.
[in] | lhs | Right hand side transformation. |
[in] | rhs | Left hand side value. |
Any | exception derived from std::exception including CvbException. |
Divides an angle by a value.
[in] | lhs | Right hand side angle. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide matrix by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide matrix by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide matrix by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide point by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide point by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide point by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
Divide point by scalar.
[in] | lhs | Right hand side matrix. |
[in] | rhs | Left hand side value. |
Does | not throw any exception. |
|
inline |
Create a polar transformation (i.e. unwrap a ring structure from inside source image into a rectangular image).
[in] | image | Source image. |
[in] | center | Center image for the polar transform. |
[in] | innerRadius | Inner radius of the ring. |
[in] | outerRadius | Outer radius of the ring. |
Any | exception derived from std::exception including CvbException. |
Linear interpolation is being used for the transformation.
|
inline |
Create a polar transformation (i.e. unwrap a ring structure from inside source image into a rectangular image).
[in] | image | Source image. |
[in] | center | Center image for the polar transform. |
[in] | innerRadius | Inner radius of the ring. |
[in] | outerRadius | Outer radius of the ring. |
[in] | startAngle | Orientation of the start angle. |
[in] | totalAngle | The total angle to cover. |
Any | exception derived from std::exception including CvbException. |
Linear interpolation is being used for the transformation.
Round to an integer point.
[in] | rhs | The point to round |
Does | not throw any exception. |
Round to an integer point.
[in] | rhs | The point to round |
Does | not throw any exception. |
Round to an integer rectangle.
[in] | rhs | The rectangle to round. |
Does | not throw any exception. |
Round to an integer rectangle.
[in] | rhs | The rectangle to round. |
Does | not throw any exception. |
Rounds to an integer size.
[in] | rhs | The size to round. |
Does | not throw any exception. |
|
inlinenoexcept |
Rounds to an integer value range.
[in] | rhs | The value range to round. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns a value indicating the sign of an Angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the sine of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the hyperbolic sine of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the tangent of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |
|
inlinenoexcept |
Returns the hyperbolic tangent of an angle.
[in] | angle | The angle. |
Does | not throw any exception. |