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\section{Per-element Operations.}
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\cvCppFunc{gpu::add}
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Computes matrix-matrix or matrix-scalar sum.
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\cvdefCpp{void add(const GpuMat\& a, const GpuMat\& b, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC1, 8UC4, 32SC1 and 32FC2 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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\cvdefCpp{void add(const GpuMat\& a, const Scalar\& sc, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 and 32FC2 matrixes are supported for now.}
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\cvarg{b}{Source scalar to be added to the source matrix.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{add}.
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\cvCppFunc{gpu::subtract}
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Subtracts matrix from another matrix (or scalar from matrix).
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\cvdefCpp{void subtract(const GpuMat\& a, const GpuMat\& b, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC1, 8UC4, 32SC1 and 32FC2 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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\cvdefCpp{void subtract(const GpuMat\& a, const Scalar\& sc, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 and 32FC2 matrixes are supported for now.}
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\cvarg{b}{Scalar to be subtracted from the source matrix \texttt{a}.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{subtract}.
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\cvCppFunc{gpu::multiply}
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Computes per-element product of two matrices (or of matrix and scalar).
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\cvdefCpp{void multiply(const GpuMat\& a, const GpuMat\& b, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC1, 8UC4, 32SC1 and 32FC2 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destionation matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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\cvdefCpp{void multiply(const GpuMat\& a, const Scalar\& sc, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 and 32FC2 matrixes are supported for now.}
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\cvarg{b}{Scalar to be multiplied by.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{multiply}.
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\cvCppFunc{gpu::divide}
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Performs per-element division of two matrices (or division of matrix by scalar).
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\cvdefCpp{void divide(const GpuMat\& a, const GpuMat\& b, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC1, 8UC4, 32SC1 and 32FC2 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destionation matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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\cvdefCpp{void divide(const GpuMat\& a, const Scalar\& sc, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 and 32FC2 matrixes are supported for now.}
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\cvarg{b}{Scalar to be divided by.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{divide}.
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\cvCppFunc{gpu::exp}
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Computes exponent of each matrix element.
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\cvdefCpp{void exp(const GpuMat\& a, GpuMat\& b);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 matrixes are supported for now.}
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\cvarg{b}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{exp}.
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\cvCppFunc{gpu::log}
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Computes natural logarithm of absolute value of each matrix element.
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\cvdefCpp{void log(const GpuMat\& a, GpuMat\& b);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 matrixes are supported for now.}
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\cvarg{b}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{log}.
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\cvCppFunc{gpu::absdiff}
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Computes per-element absolute difference of two matrices (or of matrix and scalar).
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\cvdefCpp{void absdiff(const GpuMat\& a, const GpuMat\& b, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC1, 8UC4, 32SC1 and 32FC2 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destionation matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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\cvdefCpp{void absdiff(const GpuMat\& a, const Scalar\& s, GpuMat\& c);}
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\begin{description}
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\cvarg{a}{Source matrix. 32FC1 matrixes are supported for now.}
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\cvarg{b}{Scalar to be multiplied by.}
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\cvarg{c}{Destination matrix. Will have the same size and type as \texttt{a}.}
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\end{description}
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See also: \cvCppCross{absdiff}.
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\cvCppFunc{gpu::compare}
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Compares elements of two matrices.
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\cvdefCpp{void compare(const GpuMat\& a, const GpuMat\& b, GpuMat\& c, int cmpop);}
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\begin{description}
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\cvarg{a}{First source matrix. 8UC4 and 32FC1 matrices are supported for now.}
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\cvarg{b}{Second source matrix. Must have the same size and type as \texttt{a}.}
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\cvarg{c}{Destination matrix. Will have the same size as \texttt{a} and be 8UC1 type.}
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\cvarg{cmpop}{Flag specifying the relation between the elements to be checked:
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\begin{description}
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\cvarg{CMP\_EQ}{$=$}
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\cvarg{CMP\_GT}{$>$}
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\cvarg{CMP\_GE}{$\ge$}
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\cvarg{CMP\_LT}{$<$}
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\cvarg{CMP\_LE}{$\le$}
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\cvarg{CMP\_NE}{$\ne$}
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\end{description}
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}
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\end{description}
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See also: \cvCppCross{compare}.
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\cvfunc{cv::gpu::bitwise\_not}\label{cppfunc.gpu.bitwise.not}
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Performs per-element bitwise inversion.
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\cvdefCpp{void bitwise\_not(const GpuMat\& src, GpuMat\& dst,\par
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const GpuMat\& mask=GpuMat());\newline
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void bitwise\_not(const GpuMat\& src, GpuMat\& dst,\par
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const GpuMat\& mask, const Stream\& stream);}
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\begin{description}
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\cvarg{src}{Source matrix.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src}.}
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\cvarg{mask}{Optional operation mask. 8-bit single channel image.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \hyperref[cppfunc.bitwise.not]{cv::bitwise\_not}.
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\cvfunc{cv::gpu::bitwise\_or}\label{cppfunc.gpu.bitwise.or}
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Performs per-element bitwise disjunction of two matrices.
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\cvdefCpp{void bitwise\_or(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask=GpuMat());\newline
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void bitwise\_or(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask, const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{First source matrix.}
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\cvarg{src2}{Second source matrix. It must have the same size and type as \texttt{src1}.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{mask}{Optional operation mask. 8-bit single channel image.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \hyperref[cppfunc.bitwise.or]{cv::bitwise\_or}.
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\cvfunc{cv::gpu::bitwise\_and}\label{cppfunc.gpu.bitwise.and}
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Performs per-element bitwise conjunction of two matrices.
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\cvdefCpp{void bitwise\_and(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask=GpuMat());\newline
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void bitwise\_and(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask, const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{First source matrix.}
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\cvarg{src2}{Second source matrix. It must have the same size and type as \texttt{src1}.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{mask}{Optional operation mask. 8-bit single channel image.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \hyperref[cppfunc.bitwise.and]{cv::bitwise\_and}.
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\cvfunc{cv::gpu::bitwise\_xor}\label{cppfunc.gpu.bitwise.xor}
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Performs per-element bitwise "exclusive or" of two matrices.
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\cvdefCpp{void bitwise\_xor(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask=GpuMat());\newline
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void bitwise\_xor(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const GpuMat\& mask, const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{First source matrix.}
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\cvarg{src2}{Second source matrix. It must have the same size and type as \texttt{src1}.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{mask}{Optional operation mask. 8-bit single channel image.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \hyperref[cppfunc.bitwise.xor]{cv::bitwise\_xor}.
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\cvCppFunc{gpu::min}
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Computes per-element minimum of two matrices (or of matrix and scalar).
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\cvdefCpp{void min(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst);\newline
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void min(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{First source matrix.}
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\cvarg{src2}{Second source matrix.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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\cvdefCpp{void min(const GpuMat\& src1, double src2, GpuMat\& dst);\newline
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void min(const GpuMat\& src1, double src2, GpuMat\& dst,\par
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const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{Source matrix.}
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\cvarg{src2}{Scalar to be compared with.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \cvCppCross{min}.
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\cvCppFunc{gpu::max}
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Computes per-element maximum of two matrices (or of matrix and scalar).
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\cvdefCpp{void max(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst);\newline
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void max(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par
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const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{First source matrix.}
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\cvarg{src2}{Second source matrix.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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\cvdefCpp{void max(const GpuMat\& src1, double src2, GpuMat\& dst);\newline
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void max(const GpuMat\& src1, double src2, GpuMat\& dst,\par
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const Stream\& stream);}
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\begin{description}
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\cvarg{src1}{Source matrix.}
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\cvarg{src2}{Scalar to be compared with.}
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\cvarg{dst}{Destination matrix. Will have the same size and type as \texttt{src1}.}
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\cvarg{stream}{Stream for the asynchronous version.}
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\end{description}
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See also: \cvCppCross{max}.
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