mirror of https://github.com/opencv/opencv.git
Open Source Computer Vision Library
https://opencv.org/
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419 lines
11 KiB
419 lines
11 KiB
/** This file was automatically generated using util/cvarr_operators.py script */ |
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%extend CvMat { |
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%newobject operator &; |
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CvMat * operator & (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvAnd(self, src, res); |
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return res; |
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} |
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CvMat * operator &= (CvArr * src){ |
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cvAnd(self, src, self); |
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return self; |
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} |
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%newobject operator +; |
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CvMat * operator + (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvAdd(self, src, res); |
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return res; |
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} |
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CvMat * operator += (CvArr * src){ |
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cvAdd(self, src, self); |
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return self; |
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} |
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%newobject operator *; |
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CvMat * operator * (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvMul(self, src, res); |
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return res; |
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} |
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CvMat * operator *= (CvArr * src){ |
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cvMul(self, src, self); |
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return self; |
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} |
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%newobject operator -; |
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CvMat * operator - (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvSub(self, src, res); |
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return res; |
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} |
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CvMat * operator -= (CvArr * src){ |
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cvSub(self, src, self); |
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return self; |
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} |
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%newobject operator /; |
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CvMat * operator / (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvDiv(self, src, res); |
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return res; |
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} |
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CvMat * operator /= (CvArr * src){ |
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cvDiv(self, src, self); |
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return self; |
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} |
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%newobject operator |; |
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CvMat * operator | (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvOr(self, src, res); |
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return res; |
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} |
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CvMat * operator |= (CvArr * src){ |
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cvOr(self, src, self); |
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return self; |
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} |
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%newobject operator ^; |
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CvMat * operator ^ (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvXor(self, src, res); |
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return res; |
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} |
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CvMat * operator ^= (CvArr * src){ |
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cvXor(self, src, self); |
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return self; |
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} |
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%newobject operator +; |
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CvMat * operator + (CvScalar val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvAddS(self, val, res); |
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return res; |
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} |
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CvMat * operator += (CvScalar val){ |
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cvAddS(self, val, self); |
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return self; |
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} |
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%newobject operator ^; |
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CvMat * operator ^ (CvScalar val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvXorS(self, val, res); |
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return res; |
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} |
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CvMat * operator ^= (CvScalar val){ |
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cvXorS(self, val, self); |
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return self; |
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} |
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%newobject operator -; |
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CvMat * operator - (CvScalar val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvSubS(self, val, res); |
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return res; |
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} |
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CvMat * operator -= (CvScalar val){ |
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cvSubS(self, val, self); |
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return self; |
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} |
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%newobject operator |; |
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CvMat * operator | (CvScalar val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvOrS(self, val, res); |
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return res; |
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} |
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CvMat * operator |= (CvScalar val){ |
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cvOrS(self, val, self); |
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return self; |
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} |
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%newobject operator &; |
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CvMat * operator & (CvScalar val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvAndS(self, val, res); |
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return res; |
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} |
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CvMat * operator &= (CvScalar val){ |
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cvAndS(self, val, self); |
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return self; |
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} |
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%newobject operator >=; |
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CvMat * operator >= (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_GE); |
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return res; |
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} |
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CvMat * operator >= (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_GE); |
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return res; |
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} |
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%newobject operator ==; |
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CvMat * operator == (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_EQ); |
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return res; |
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} |
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CvMat * operator == (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_EQ); |
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return res; |
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} |
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%newobject operator <=; |
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CvMat * operator <= (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_LE); |
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return res; |
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} |
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CvMat * operator <= (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_LE); |
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return res; |
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} |
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%newobject operator !=; |
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CvMat * operator != (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_NE); |
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return res; |
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} |
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CvMat * operator != (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_NE); |
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return res; |
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} |
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%newobject operator <; |
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CvMat * operator < (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_LT); |
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return res; |
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} |
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CvMat * operator < (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_LT); |
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return res; |
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} |
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%newobject operator >; |
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CvMat * operator > (CvArr * src){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmp(self, src, res, CV_CMP_GT); |
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return res; |
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} |
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CvMat * operator > (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, CV_8U); |
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cvCmpS(self, val, res, CV_CMP_GT); |
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return res; |
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} |
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%newobject operator *; |
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CvMat * operator * (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvScale(self, res, val); |
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return res; |
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} |
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CvMat * operator *= (double val){ |
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cvScale(self, self, val); |
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return self; |
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} |
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%newobject operator /; |
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CvMat * operator / (double val){ |
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CvMat * res = cvCreateMat(self->rows, self->cols, self->type); |
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cvScale(self, res, 1.0/val); |
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return res; |
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} |
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CvMat * operator /= (double val){ |
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cvScale(self, self, 1.0/val); |
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return self; |
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} |
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} /* extend CvMat */ |
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%extend IplImage { |
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%newobject operator &; |
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IplImage * operator & (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvAnd(self, src, res); |
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return res; |
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} |
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IplImage * operator &= (CvArr * src){ |
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cvAnd(self, src, self); |
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return self; |
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} |
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%newobject operator +; |
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IplImage * operator + (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvAdd(self, src, res); |
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return res; |
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} |
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IplImage * operator += (CvArr * src){ |
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cvAdd(self, src, self); |
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return self; |
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} |
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%newobject operator *; |
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IplImage * operator * (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvMul(self, src, res); |
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return res; |
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} |
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IplImage * operator *= (CvArr * src){ |
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cvMul(self, src, self); |
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return self; |
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} |
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%newobject operator -; |
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IplImage * operator - (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvSub(self, src, res); |
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return res; |
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} |
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IplImage * operator -= (CvArr * src){ |
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cvSub(self, src, self); |
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return self; |
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} |
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%newobject operator /; |
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IplImage * operator / (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvDiv(self, src, res); |
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return res; |
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} |
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IplImage * operator /= (CvArr * src){ |
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cvDiv(self, src, self); |
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return self; |
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} |
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%newobject operator |; |
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IplImage * operator | (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvOr(self, src, res); |
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return res; |
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} |
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IplImage * operator |= (CvArr * src){ |
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cvOr(self, src, self); |
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return self; |
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} |
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%newobject operator ^; |
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IplImage * operator ^ (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvXor(self, src, res); |
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return res; |
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} |
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IplImage * operator ^= (CvArr * src){ |
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cvXor(self, src, self); |
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return self; |
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} |
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%newobject operator +; |
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IplImage * operator + (CvScalar val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvAddS(self, val, res); |
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return res; |
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} |
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IplImage * operator += (CvScalar val){ |
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cvAddS(self, val, self); |
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return self; |
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} |
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%newobject operator ^; |
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IplImage * operator ^ (CvScalar val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvXorS(self, val, res); |
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return res; |
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} |
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IplImage * operator ^= (CvScalar val){ |
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cvXorS(self, val, self); |
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return self; |
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} |
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%newobject operator -; |
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IplImage * operator - (CvScalar val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvSubS(self, val, res); |
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return res; |
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} |
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IplImage * operator -= (CvScalar val){ |
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cvSubS(self, val, self); |
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return self; |
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} |
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%newobject operator |; |
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IplImage * operator | (CvScalar val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvOrS(self, val, res); |
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return res; |
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} |
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IplImage * operator |= (CvScalar val){ |
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cvOrS(self, val, self); |
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return self; |
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} |
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%newobject operator &; |
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IplImage * operator & (CvScalar val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvAndS(self, val, res); |
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return res; |
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} |
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IplImage * operator &= (CvScalar val){ |
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cvAndS(self, val, self); |
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return self; |
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} |
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%newobject operator >=; |
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IplImage * operator >= (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_GE); |
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return res; |
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} |
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IplImage * operator >= (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_GE); |
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return res; |
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} |
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%newobject operator ==; |
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IplImage * operator == (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_EQ); |
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return res; |
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} |
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IplImage * operator == (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_EQ); |
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return res; |
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} |
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%newobject operator <=; |
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IplImage * operator <= (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_LE); |
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return res; |
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} |
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IplImage * operator <= (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_LE); |
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return res; |
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} |
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%newobject operator !=; |
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IplImage * operator != (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_NE); |
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return res; |
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} |
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IplImage * operator != (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_NE); |
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return res; |
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} |
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%newobject operator <; |
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IplImage * operator < (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_LT); |
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return res; |
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} |
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IplImage * operator < (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_LT); |
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return res; |
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} |
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%newobject operator >; |
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IplImage * operator > (CvArr * src){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmp(self, src, res, CV_CMP_GT); |
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return res; |
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} |
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IplImage * operator > (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), IPL_DEPTH_8U, 1); |
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cvCmpS(self, val, res, CV_CMP_GT); |
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return res; |
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} |
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%newobject operator *; |
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IplImage * operator * (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvScale(self, res, val); |
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return res; |
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} |
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IplImage * operator *= (double val){ |
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cvScale(self, self, val); |
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return self; |
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} |
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%newobject operator /; |
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IplImage * operator / (double val){ |
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IplImage * res = cvCreateImage(cvGetSize(self), self->depth, self->nChannels); |
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cvScale(self, res, 1.0/val); |
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return res; |
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} |
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IplImage * operator /= (double val){ |
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cvScale(self, self, 1.0/val); |
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return self; |
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} |
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} /* extend IplImage */ |
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