opencv/interfaces/swig/general/cvarr_operators.i

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