diff --git a/doc/gpu.tex b/doc/gpu.tex index 9999d0e537..a4515b8e22 100644 --- a/doc/gpu.tex +++ b/doc/gpu.tex @@ -9,7 +9,7 @@ Returns true if current GPU has native double support, false otherwise. \cvdefCpp{bool hasNativeDoubleSupport(int device);} \begin{description} -\cvarg{device}{GPU identity.} +\cvarg{device}{GPU identity. Can be obtained via \cvCppCross{gpu::getDevice}.} \end{description} @@ -18,7 +18,7 @@ Returns true if current GPU has atomics support, false otherwise. \cvdefCpp{bool hasAtomicsSupport(int device);} \begin{description} -\cvarg{device}{GPU identity.} +\cvarg{device}{GPU identity. Can be obtained via \cvCppCross{gpu::getDevice}.} \end{description} @@ -33,7 +33,7 @@ Creates continuous matrix in GPU memory. \cvarg{rows}{Row count.} \cvarg{cols}{Column count.} \cvarg{type}{Type of the matrix.} -\cvarg{m}{Destionation matrix. Will do only reshape if \texttt{m} has proper type and area ($rows \times cols$).} +\cvarg{m}{Destination matrix. Will be reshaped only if it has proper type and area ($rows \times cols$).} \end{description} @@ -86,6 +86,7 @@ void bitwise\_not(const GpuMat\& src, GpuMat\& dst,\par \cvarg{mask}{Optional operation mask. 8-bit single channel image.} \cvarg{stream}{Stream for the asynchronous version.} \end{description} + See also: \hyperref[cppfunc.bitwise.not]{cv::bitwise\_not}. @@ -104,6 +105,7 @@ void bitwise\_or(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par \cvarg{mask}{Optional operation mask. 8-bit single channel image.} \cvarg{stream}{Stream for the asynchronous version.} \end{description} + See also: \hyperref[cppfunc.bitwise.or]{cv::bitwise\_or}. @@ -122,6 +124,7 @@ void bitwise\_and(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par \cvarg{mask}{Optional operation mask. 8-bit single channel image.} \cvarg{stream}{Stream for the asynchronous version.} \end{description} + See also: \hyperref[cppfunc.bitwise.and]{cv::bitwise\_and}. @@ -140,6 +143,7 @@ void bitwise\_xor(const GpuMat\& src1, const GpuMat\& src2, GpuMat\& dst,\par \cvarg{mask}{Optional operation mask. 8-bit single channel image.} \cvarg{stream}{Stream for the asynchronous version.} \end{description} + See also: \hyperref[cppfunc.bitwise.xor]{cv::bitwise\_xor}. @@ -156,7 +160,7 @@ Performs mean-shift filtering. \begin{description} \cvarg{src}{Source image. Only 8UC4 images are supported for now.} -\cvarg{dst}{Destination image. Will have the same size and type as \texttt{src}. Each pixel \texttt{(x,y)} of the destination image will contain color of converged point started from \texttt{(x,y)} pixel of the source image.} +\cvarg{dst}{Destination image. Will have the same size and type as \texttt{src}. Each pixel \texttt{(x,y)} of the destination image will contain color of the converged point started from \texttt{(x,y)} pixel of the source image.} \cvarg{sp}{Spatial window radius.} \cvarg{sr}{Color window radius.} \cvarg{criteria}{Termination criteria. See \hyperref[TermCriteria]{cv::TermCriteria}.} @@ -210,6 +214,7 @@ void integral(const GpuMat\& src, GpuMat\& sum, GpuMat\& sqsum);} \cvarg{sum}{Integral image. Will contain 32-bit unsigned integer values packed into 32SC1.} \cvarg{sqsum}{Squared integral image. Will have 32FC1 type.} \end{description} + See also: \cvCppCross{integral}. diff --git a/doc/opencv.pdf b/doc/opencv.pdf index 4d1b09a933..2c4812e9ce 100644 Binary files a/doc/opencv.pdf and b/doc/opencv.pdf differ