Basic Structures ================ .. highlight:: c .. index:: CvPoint .. _CvPoint: CvPoint ------- .. ctype:: CvPoint 2D point with integer coordinates (usually zero-based). :: typedef struct CvPoint { int x; int y; } CvPoint; .. .. attribute:: x x-coordinate .. attribute:: y y-coordinate :: /* Constructor */ inline CvPoint cvPoint( int x, int y ); /* Conversion from CvPoint2D32f */ inline CvPoint cvPointFrom32f( CvPoint2D32f point ); .. .. index:: CvPoint2D32f .. _CvPoint2D32f: CvPoint2D32f ------------ .. ctype:: CvPoint2D32f 2D point with floating-point coordinates :: typedef struct CvPoint2D32f { float x; float y; } CvPoint2D32f; .. .. attribute:: x x-coordinate .. attribute:: y y-coordinate :: /* Constructor */ inline CvPoint2D32f cvPoint2D32f( double x, double y ); /* Conversion from CvPoint */ inline CvPoint2D32f cvPointTo32f( CvPoint point ); .. .. index:: CvPoint3D32f .. _CvPoint3D32f: CvPoint3D32f ------------ .. ctype:: CvPoint3D32f 3D point with floating-point coordinates :: typedef struct CvPoint3D32f { float x; float y; float z; } CvPoint3D32f; .. .. attribute:: x x-coordinate .. attribute:: y y-coordinate .. attribute:: z z-coordinate :: /* Constructor */ inline CvPoint3D32f cvPoint3D32f( double x, double y, double z ); .. .. index:: CvPoint2D64f .. _CvPoint2D64f: CvPoint2D64f ------------ .. ctype:: CvPoint2D64f 2D point with double precision floating-point coordinates :: typedef struct CvPoint2D64f { double x; double y; } CvPoint2D64f; .. .. attribute:: x x-coordinate .. attribute:: y y-coordinate :: /* Constructor */ inline CvPoint2D64f cvPoint2D64f( double x, double y ); /* Conversion from CvPoint */ inline CvPoint2D64f cvPointTo64f( CvPoint point ); .. .. index:: CvPoint3D64f .. _CvPoint3D64f: CvPoint3D64f ------------ .. ctype:: CvPoint3D64f 3D point with double precision floating-point coordinates :: typedef struct CvPoint3D64f { double x; double y; double z; } CvPoint3D64f; .. .. attribute:: x x-coordinate .. attribute:: y y-coordinate .. attribute:: z z-coordinate :: /* Constructor */ inline CvPoint3D64f cvPoint3D64f( double x, double y, double z ); .. .. index:: CvSize .. _CvSize: CvSize ------ .. ctype:: CvSize Pixel-accurate size of a rectangle. :: typedef struct CvSize { int width; int height; } CvSize; .. .. attribute:: width Width of the rectangle .. attribute:: height Height of the rectangle :: /* Constructor */ inline CvSize cvSize( int width, int height ); .. .. index:: CvSize2D32f .. _CvSize2D32f: CvSize2D32f ----------- .. ctype:: CvSize2D32f Sub-pixel accurate size of a rectangle. :: typedef struct CvSize2D32f { float width; float height; } CvSize2D32f; .. .. attribute:: width Width of the rectangle .. attribute:: height Height of the rectangle :: /* Constructor */ inline CvSize2D32f cvSize2D32f( double width, double height ); .. .. index:: CvRect .. _CvRect: CvRect ------ .. ctype:: CvRect Offset (usually the top-left corner) and size of a rectangle. :: typedef struct CvRect { int x; int y; int width; int height; } CvRect; .. .. attribute:: x x-coordinate of the top-left corner .. attribute:: y y-coordinate of the top-left corner (bottom-left for Windows bitmaps) .. attribute:: width Width of the rectangle .. attribute:: height Height of the rectangle :: /* Constructor */ inline CvRect cvRect( int x, int y, int width, int height ); .. .. index:: CvScalar .. _CvScalar: CvScalar -------- .. ctype:: CvScalar A container for 1-,2-,3- or 4-tuples of doubles. :: typedef struct CvScalar { double val[4]; } CvScalar; .. :: /* Constructor: initializes val[0] with val0, val[1] with val1, etc. */ inline CvScalar cvScalar( double val0, double val1=0, double val2=0, double val3=0 ); /* Constructor: initializes all of val[0]...val[3] with val0123 */ inline CvScalar cvScalarAll( double val0123 ); /* Constructor: initializes val[0] with val0, and all of val[1]...val[3] with zeros */ inline CvScalar cvRealScalar( double val0 ); .. .. index:: CvTermCriteria .. _CvTermCriteria: CvTermCriteria -------------- .. ctype:: CvTermCriteria Termination criteria for iterative algorithms. :: #define CV_TERMCRIT_ITER 1 #define CV_TERMCRIT_NUMBER CV_TERMCRIT_ITER #define CV_TERMCRIT_EPS 2 typedef struct CvTermCriteria { int type; int max_iter; double epsilon; } CvTermCriteria; .. .. attribute:: type A combination of CV _ TERMCRIT _ ITER and CV _ TERMCRIT _ EPS .. attribute:: max_iter Maximum number of iterations .. attribute:: epsilon Required accuracy :: /* Constructor */ inline CvTermCriteria cvTermCriteria( int type, int max_iter, double epsilon ); /* Check and transform a CvTermCriteria so that type=CV_TERMCRIT_ITER+CV_TERMCRIT_EPS and both max_iter and epsilon are valid */ CvTermCriteria cvCheckTermCriteria( CvTermCriteria criteria, double default_eps, int default_max_iters ); .. .. index:: CvMat .. _CvMat: CvMat ----- .. ctype:: CvMat A multi-channel matrix. :: typedef struct CvMat { int type; int step; int* refcount; union { uchar* ptr; short* s; int* i; float* fl; double* db; } data; #ifdef __cplusplus union { int rows; int height; }; union { int cols; int width; }; #else int rows; int cols; #endif } CvMat; .. .. attribute:: type A CvMat signature (CV _ MAT _ MAGIC _ VAL) containing the type of elements and flags .. attribute:: step Full row length in bytes .. attribute:: refcount Underlying data reference counter .. attribute:: data Pointers to the actual matrix data .. attribute:: rows Number of rows .. attribute:: cols Number of columns Matrices are stored row by row. All of the rows are aligned by 4 bytes. .. index:: CvMatND .. _CvMatND: CvMatND ------- .. ctype:: CvMatND Multi-dimensional dense multi-channel array. :: typedef struct CvMatND { int type; int dims; int* refcount; union { uchar* ptr; short* s; int* i; float* fl; double* db; } data; struct { int size; int step; } dim[CV_MAX_DIM]; } CvMatND; .. .. attribute:: type A CvMatND signature (CV _ MATND _ MAGIC _ VAL), combining the type of elements and flags .. attribute:: dims The number of array dimensions .. attribute:: refcount Underlying data reference counter .. attribute:: data Pointers to the actual matrix data .. attribute:: dim For each dimension, the pair (number of elements, distance between elements in bytes) .. index:: CvSparseMat .. _CvSparseMat: CvSparseMat ----------- .. ctype:: CvSparseMat Multi-dimensional sparse multi-channel array. :: typedef struct CvSparseMat { int type; int dims; int* refcount; struct CvSet* heap; void** hashtable; int hashsize; int total; int valoffset; int idxoffset; int size[CV_MAX_DIM]; } CvSparseMat; .. .. attribute:: type A CvSparseMat signature (CV _ SPARSE _ MAT _ MAGIC _ VAL), combining the type of elements and flags. .. attribute:: dims Number of dimensions .. attribute:: refcount Underlying reference counter. Not used. .. attribute:: heap A pool of hash table nodes .. attribute:: hashtable The hash table. Each entry is a list of nodes. .. attribute:: hashsize Size of the hash table .. attribute:: total Total number of sparse array nodes .. attribute:: valoffset The value offset of the array nodes, in bytes .. attribute:: idxoffset The index offset of the array nodes, in bytes .. attribute:: size Array of dimension sizes .. index:: IplImage .. _IplImage: IplImage -------- .. ctype:: IplImage IPL image header :: typedef struct _IplImage { int nSize; int ID; int nChannels; int alphaChannel; int depth; char colorModel[4]; char channelSeq[4]; int dataOrder; int origin; int align; int width; int height; struct _IplROI *roi; struct _IplImage *maskROI; void *imageId; struct _IplTileInfo *tileInfo; int imageSize; char *imageData; int widthStep; int BorderMode[4]; int BorderConst[4]; char *imageDataOrigin; } IplImage; .. .. attribute:: nSize ``sizeof(IplImage)`` .. attribute:: ID Version, always equals 0 .. attribute:: nChannels Number of channels. Most OpenCV functions support 1-4 channels. .. attribute:: alphaChannel Ignored by OpenCV .. attribute:: depth Channel depth in bits + the optional sign bit ( ``IPL_DEPTH_SIGN`` ). The supported depths are: .. attribute:: IPL_DEPTH_8U Unsigned 8-bit integer .. attribute:: IPL_DEPTH_8S Signed 8-bit integer .. attribute:: IPL_DEPTH_16U Unsigned 16-bit integer .. attribute:: IPL_DEPTH_16S Signed 16-bit integer .. attribute:: IPL_DEPTH_32S Signed 32-bit integer .. attribute:: IPL_DEPTH_32F Single-precision floating point .. attribute:: IPL_DEPTH_64F Double-precision floating point .. attribute:: colorModel Ignored by OpenCV. The OpenCV function :ref:`CvtColor` requires the source and destination color spaces as parameters. .. attribute:: channelSeq Ignored by OpenCV .. attribute:: dataOrder 0 = ``IPL_DATA_ORDER_PIXEL`` - interleaved color channels, 1 - separate color channels. :ref:`CreateImage` only creates images with interleaved channels. For example, the usual layout of a color image is: :math:`b_{00} g_{00} r_{00} b_{10} g_{10} r_{10} ...` .. attribute:: origin 0 - top-left origin, 1 - bottom-left origin (Windows bitmap style) .. attribute:: align Alignment of image rows (4 or 8). OpenCV ignores this and uses widthStep instead. .. attribute:: width Image width in pixels .. attribute:: height Image height in pixels .. attribute:: roi Region Of Interest (ROI). If not NULL, only this image region will be processed. .. attribute:: maskROI Must be NULL in OpenCV .. attribute:: imageId Must be NULL in OpenCV .. attribute:: tileInfo Must be NULL in OpenCV .. attribute:: imageSize Image data size in bytes. For interleaved data, this equals :math:`\texttt{image->height} \cdot \texttt{image->widthStep}` .. attribute:: imageData A pointer to the aligned image data .. attribute:: widthStep The size of an aligned image row, in bytes .. attribute:: BorderMode Border completion mode, ignored by OpenCV .. attribute:: BorderConst Border completion mode, ignored by OpenCV .. attribute:: imageDataOrigin A pointer to the origin of the image data (not necessarily aligned). This is used for image deallocation. The :ref:`IplImage` structure was inherited from the Intel Image Processing Library, in which the format is native. OpenCV only supports a subset of possible :ref:`IplImage` formats, as outlined in the parameter list above. In addition to the above restrictions, OpenCV handles ROIs differently. OpenCV functions require that the image size or ROI size of all source and destination images match exactly. On the other hand, the Intel Image Processing Library processes the area of intersection between the source and destination images (or ROIs), allowing them to vary independently. .. index:: CvArr .. _CvArr: CvArr ----- .. ctype:: CvArr Arbitrary array :: typedef void CvArr; .. The metatype ``CvArr`` is used *only* as a function parameter to specify that the function accepts arrays of multiple types, such as IplImage*, CvMat* or even CvSeq* sometimes. The particular array type is determined at runtime by analyzing the first 4 bytes of the header.