#ifndef _OPENCV3_CORE_H_ #define _OPENCV3_CORE_H_ #include #include // Wrapper for std::vector typedef struct CStrings { const char** strs; int length; } CStrings; typedef struct ByteArray { char* data; int length; } ByteArray; // Wrapper for std::vector typedef struct IntVector { int* val; int length; } IntVector; // Wrapper for std::vector typedef struct FloatVector { float* val; int length; } FloatVector; #ifdef __cplusplus #include extern "C" { #endif typedef struct RawData { int width; int height; struct ByteArray data; } RawData; // Wrapper for an individual cv::Point2f typedef struct Point2f { float x; float y; } Point2f; // Wrapper for an individual cv::cvPoint typedef struct Point { int x; int y; } Point; // Wrapper for the vector of Point structs aka std::vector typedef struct Points { Point* points; int length; } Points; // Contour is alias for Points typedef Points Contour; // Wrapper for the vector of Points vectors aka std::vector< std::vector > typedef struct Contours { Contour* contours; int length; } Contours; // Wrapper for an individual cv::cvRect typedef struct Rect { int x; int y; int width; int height; } Rect; // Wrapper for the vector of Rect struct aka std::vector typedef struct Rects { Rect* rects; int length; } Rects; // Wrapper for an individual cv::cvSize typedef struct Size { int width; int height; } Size; // Wrapper for an individual cv::RotatedRect typedef struct RotatedRect { Contour pts; Rect boundingRect; Point center; Size size; double angle; } RotatedRect; // Wrapper for an individual cv::cvScalar typedef struct Scalar { double val1; double val2; double val3; double val4; } Scalar; // Wrapper for a individual cv::KeyPoint typedef struct KeyPoint { double x; double y; double size; double angle; double response; int octave; int classID; } KeyPoint; // Wrapper for the vector of KeyPoint struct aka std::vector typedef struct KeyPoints { KeyPoint* keypoints; int length; } KeyPoints; // Wrapper for SimpleBlobDetectorParams aka SimpleBlobDetector::Params typedef struct SimpleBlobDetectorParams { unsigned char blobColor; bool filterByArea; bool filterByCircularity; bool filterByColor; bool filterByConvexity; bool filterByInertia; float maxArea; float maxCircularity; float maxConvexity; float maxInertiaRatio; float maxThreshold; float minArea; float minCircularity; float minConvexity; float minDistBetweenBlobs; float minInertiaRatio; size_t minRepeatability; float minThreshold; float thresholdStep; } SimpleBlobDetectorParams; // Wrapper for an individual cv::DMatch typedef struct DMatch { int queryIdx; int trainIdx; int imgIdx; float distance; } DMatch; // Wrapper for the vector of DMatch struct aka std::vector typedef struct DMatches { DMatch* dmatches; int length; } DMatches; // Wrapper for the vector vector of DMatch struct aka std::vector> typedef struct MultiDMatches { DMatches* dmatches; int length; } MultiDMatches; // Wrapper for an individual cv::Moment typedef struct Moment { double m00; double m10; double m01; double m20; double m11; double m02; double m30; double m21; double m12; double m03; double mu20; double mu11; double mu02; double mu30; double mu21; double mu12; double mu03; double nu20; double nu11; double nu02; double nu30; double nu21; double nu12; double nu03; } Moment; #ifdef __cplusplus typedef cv::Mat* Mat; typedef cv::TermCriteria* TermCriteria; #else typedef void* Mat; typedef void* TermCriteria; #endif // Wrapper for the vector of Mat aka std::vector typedef struct Mats { Mat* mats; int length; } Mats; Mat Mats_get(struct Mats mats, int i); struct DMatches MultiDMatches_get(struct MultiDMatches mds, int index); struct ByteArray toByteArray(const char* buf, int len); void ByteArray_Release(struct ByteArray buf); void Contours_Close(struct Contours cs); void KeyPoints_Close(struct KeyPoints ks); void Rects_Close(struct Rects rs); void Mats_Close(struct Mats mats); void Point_Close(struct Point p); void Points_Close(struct Points ps); void DMatches_Close(struct DMatches ds); void MultiDMatches_Close(struct MultiDMatches mds); Mat Mat_New(); Mat Mat_NewWithSize(int rows, int cols, int type); Mat Mat_NewFromScalar(const Scalar ar, int type); Mat Mat_NewWithSizeFromScalar(const Scalar ar, int rows, int cols, int type); Mat Mat_NewFromBytes(int rows, int cols, int type, struct ByteArray buf); Mat Mat_FromPtr(Mat m, int rows, int cols, int type, int prows, int pcols); void Mat_Close(Mat m); int Mat_Empty(Mat m); Mat Mat_Clone(Mat m); void Mat_CopyTo(Mat m, Mat dst); int Mat_Total(Mat m); void Mat_Size(Mat m, IntVector* res); void Mat_CopyToWithMask(Mat m, Mat dst, Mat mask); void Mat_ConvertTo(Mat m, Mat dst, int type); struct ByteArray Mat_ToBytes(Mat m); struct ByteArray Mat_DataPtr(Mat m); Mat Mat_Region(Mat m, Rect r); Mat Mat_Reshape(Mat m, int cn, int rows); void Mat_PatchNaNs(Mat m); Mat Mat_ConvertFp16(Mat m); Scalar Mat_Mean(Mat m); Scalar Mat_MeanWithMask(Mat m, Mat mask); Mat Mat_Sqrt(Mat m); int Mat_Rows(Mat m); int Mat_Cols(Mat m); int Mat_Channels(Mat m); int Mat_Type(Mat m); int Mat_Step(Mat m); uint8_t Mat_GetUChar(Mat m, int row, int col); uint8_t Mat_GetUChar3(Mat m, int x, int y, int z); int8_t Mat_GetSChar(Mat m, int row, int col); int8_t Mat_GetSChar3(Mat m, int x, int y, int z); int16_t Mat_GetShort(Mat m, int row, int col); int16_t Mat_GetShort3(Mat m, int x, int y, int z); int32_t Mat_GetInt(Mat m, int row, int col); int32_t Mat_GetInt3(Mat m, int x, int y, int z); float Mat_GetFloat(Mat m, int row, int col); float Mat_GetFloat3(Mat m, int x, int y, int z); double Mat_GetDouble(Mat m, int row, int col); double Mat_GetDouble3(Mat m, int x, int y, int z); void Mat_SetTo(Mat m, Scalar value); void Mat_SetUChar(Mat m, int row, int col, uint8_t val); void Mat_SetUChar3(Mat m, int x, int y, int z, uint8_t val); void Mat_SetSChar(Mat m, int row, int col, int8_t val); void Mat_SetSChar3(Mat m, int x, int y, int z, int8_t val); void Mat_SetShort(Mat m, int row, int col, int16_t val); void Mat_SetShort3(Mat m, int x, int y, int z, int16_t val); void Mat_SetInt(Mat m, int row, int col, int32_t val); void Mat_SetInt3(Mat m, int x, int y, int z, int32_t val); void Mat_SetFloat(Mat m, int row, int col, float val); void Mat_SetFloat3(Mat m, int x, int y, int z, float val); void Mat_SetDouble(Mat m, int row, int col, double val); void Mat_SetDouble3(Mat m, int x, int y, int z, double val); void Mat_AddUChar(Mat m, uint8_t val); void Mat_SubtractUChar(Mat m, uint8_t val); void Mat_MultiplyUChar(Mat m, uint8_t val); void Mat_DivideUChar(Mat m, uint8_t val); void Mat_AddFloat(Mat m, float val); void Mat_SubtractFloat(Mat m, float val); void Mat_MultiplyFloat(Mat m, float val); void Mat_DivideFloat(Mat m, float val); Mat Mat_MultiplyMatrix(Mat x, Mat y); Mat Mat_T(Mat x); void LUT(Mat src, Mat lut, Mat dst); void Mat_AbsDiff(Mat src1, Mat src2, Mat dst); void Mat_Add(Mat src1, Mat src2, Mat dst); void Mat_AddWeighted(Mat src1, double alpha, Mat src2, double beta, double gamma, Mat dst); void Mat_BitwiseAnd(Mat src1, Mat src2, Mat dst); void Mat_BitwiseAndWithMask(Mat src1, Mat src2, Mat dst, Mat mask); void Mat_BitwiseNot(Mat src1, Mat dst); void Mat_BitwiseNotWithMask(Mat src1, Mat dst, Mat mask); void Mat_BitwiseOr(Mat src1, Mat src2, Mat dst); void Mat_BitwiseOrWithMask(Mat src1, Mat src2, Mat dst, Mat mask); void Mat_BitwiseXor(Mat src1, Mat src2, Mat dst); void Mat_BitwiseXorWithMask(Mat src1, Mat src2, Mat dst, Mat mask); void Mat_Compare(Mat src1, Mat src2, Mat dst, int ct); void Mat_BatchDistance(Mat src1, Mat src2, Mat dist, int dtype, Mat nidx, int normType, int K, Mat mask, int update, bool crosscheck); int Mat_BorderInterpolate(int p, int len, int borderType); void Mat_CalcCovarMatrix(Mat samples, Mat covar, Mat mean, int flags, int ctype); void Mat_CartToPolar(Mat x, Mat y, Mat magnitude, Mat angle, bool angleInDegrees); bool Mat_CheckRange(Mat m); void Mat_CompleteSymm(Mat m, bool lowerToUpper); void Mat_ConvertScaleAbs(Mat src, Mat dst, double alpha, double beta); void Mat_CopyMakeBorder(Mat src, Mat dst, int top, int bottom, int left, int right, int borderType, Scalar value); int Mat_CountNonZero(Mat src); void Mat_DCT(Mat src, Mat dst, int flags); double Mat_Determinant(Mat m); void Mat_DFT(Mat m, Mat dst, int flags); void Mat_Divide(Mat src1, Mat src2, Mat dst); bool Mat_Eigen(Mat src, Mat eigenvalues, Mat eigenvectors); void Mat_EigenNonSymmetric(Mat src, Mat eigenvalues, Mat eigenvectors); void Mat_Exp(Mat src, Mat dst); void Mat_ExtractChannel(Mat src, Mat dst, int coi); void Mat_FindNonZero(Mat src, Mat idx); void Mat_Flip(Mat src, Mat dst, int flipCode); void Mat_Gemm(Mat src1, Mat src2, double alpha, Mat src3, double beta, Mat dst, int flags); int Mat_GetOptimalDFTSize(int vecsize); void Mat_Hconcat(Mat src1, Mat src2, Mat dst); void Mat_Vconcat(Mat src1, Mat src2, Mat dst); void Rotate(Mat src, Mat dst, int rotationCode); void Mat_Idct(Mat src, Mat dst, int flags); void Mat_Idft(Mat src, Mat dst, int flags, int nonzeroRows); void Mat_InRange(Mat src, Mat lowerb, Mat upperb, Mat dst); void Mat_InRangeWithScalar(Mat src, const Scalar lowerb, const Scalar upperb, Mat dst); void Mat_InsertChannel(Mat src, Mat dst, int coi); double Mat_Invert(Mat src, Mat dst, int flags); double KMeans(Mat data, int k, Mat bestLabels, TermCriteria criteria, int attempts, int flags, Mat centers); double KMeansPoints(Contour points, int k, Mat bestLabels, TermCriteria criteria, int attempts, int flags, Mat centers); void Mat_Log(Mat src, Mat dst); void Mat_Magnitude(Mat x, Mat y, Mat magnitude); void Mat_Max(Mat src1, Mat src2, Mat dst); void Mat_MeanStdDev(Mat src, Mat dstMean, Mat dstStdDev); void Mat_Merge(struct Mats mats, Mat dst); void Mat_Min(Mat src1, Mat src2, Mat dst); void Mat_MinMaxIdx(Mat m, double* minVal, double* maxVal, int* minIdx, int* maxIdx); void Mat_MinMaxLoc(Mat m, double* minVal, double* maxVal, Point* minLoc, Point* maxLoc); void Mat_MulSpectrums(Mat a, Mat b, Mat c, int flags); void Mat_Multiply(Mat src1, Mat src2, Mat dst); void Mat_Subtract(Mat src1, Mat src2, Mat dst); void Mat_Normalize(Mat src, Mat dst, double alpha, double beta, int typ); double Norm(Mat src1, int normType); void Mat_PerspectiveTransform(Mat src, Mat dst, Mat tm); bool Mat_Solve(Mat src1, Mat src2, Mat dst, int flags); int Mat_SolveCubic(Mat coeffs, Mat roots); double Mat_SolvePoly(Mat coeffs, Mat roots, int maxIters); void Mat_Reduce(Mat src, Mat dst, int dim, int rType, int dType); void Mat_Repeat(Mat src, int nY, int nX, Mat dst); void Mat_ScaleAdd(Mat src1, double alpha, Mat src2, Mat dst); void Mat_SetIdentity(Mat src, double scalar); void Mat_Sort(Mat src, Mat dst, int flags); void Mat_SortIdx(Mat src, Mat dst, int flags); void Mat_Split(Mat src, struct Mats* mats); void Mat_Subtract(Mat src1, Mat src2, Mat dst); Scalar Mat_Trace(Mat src); void Mat_Transform(Mat src, Mat dst, Mat tm); void Mat_Transpose(Mat src, Mat dst); void Mat_PolarToCart(Mat magnitude, Mat degree, Mat x, Mat y, bool angleInDegrees); void Mat_Pow(Mat src, double power, Mat dst); void Mat_Phase(Mat x, Mat y, Mat angle, bool angleInDegrees); Scalar Mat_Sum(Mat src1); TermCriteria TermCriteria_New(int typ, int maxCount, double epsilon); int64_t GetCVTickCount(); double GetTickFrequency(); Mat Mat_rowRange(Mat m,int startrow,int endrow); Mat Mat_colRange(Mat m,int startrow,int endrow); #ifdef __cplusplus } #endif #endif //_OPENCV3_CORE_H_