OpenCV
4.1.1
Open Source Computer Vision
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Functions | |
GMat | cv::gapi::add (const GMat &src1, const GMat &src2, int ddepth=-1) |
Calculates the per-element sum of two matrices. More... | |
GMat | cv::gapi::addC (const GMat &src1, const GScalar &c, int ddepth=-1) |
Calculates the per-element sum of matrix and given scalar. More... | |
GMat | cv::gapi::addC (const GScalar &c, const GMat &src1, int ddepth=-1) |
std::tuple< GMat, GMat > | cv::gapi::cartToPolar (const GMat &x, const GMat &y, bool angleInDegrees=false) |
Calculates the magnitude and angle of 2D vectors. More... | |
GMat | cv::gapi::div (const GMat &src1, const GMat &src2, double scale, int ddepth=-1) |
Performs per-element division of two matrices. More... | |
GMat | cv::gapi::divC (const GMat &src, const GScalar &divisor, double scale, int ddepth=-1) |
Divides matrix by scalar. More... | |
GMat | cv::gapi::divRC (const GScalar ÷nt, const GMat &src, double scale, int ddepth=-1) |
Divides scalar by matrix. More... | |
GMat | cv::gapi::mask (const GMat &src, const GMat &mask) |
Applies a mask to a matrix. More... | |
GScalar | cv::gapi::mean (const GMat &src) |
Calculates an average (mean) of matrix elements. More... | |
GMat | cv::gapi::mul (const GMat &src1, const GMat &src2, double scale=1.0, int ddepth=-1) |
Calculates the per-element scaled product of two matrices. More... | |
GMat | cv::gapi::mulC (const GMat &src, double multiplier, int ddepth=-1) |
Multiplies matrix by scalar. More... | |
GMat | cv::gapi::mulC (const GMat &src, const GScalar &multiplier, int ddepth=-1) |
GMat | cv::gapi::mulC (const GScalar &multiplier, const GMat &src, int ddepth=-1) |
GMat | cv::gapi::phase (const GMat &x, const GMat &y, bool angleInDegrees=false) |
Calculates the rotation angle of 2D vectors. More... | |
std::tuple< GMat, GMat > | cv::gapi::polarToCart (const GMat &magnitude, const GMat &angle, bool angleInDegrees=false) |
Calculates x and y coordinates of 2D vectors from their magnitude and angle. More... | |
GMat | cv::gapi::sqrt (const GMat &src) |
Calculates a square root of array elements. More... | |
GMat | cv::gapi::sub (const GMat &src1, const GMat &src2, int ddepth=-1) |
Calculates the per-element difference between two matrices. More... | |
GMat | cv::gapi::subC (const GMat &src, const GScalar &c, int ddepth=-1) |
Calculates the per-element difference between matrix and given scalar. More... | |
GMat | cv::gapi::subRC (const GScalar &c, const GMat &src, int ddepth=-1) |
Calculates the per-element difference between given scalar and the matrix. More... | |
#include <opencv2/gapi/core.hpp>
Calculates the per-element sum of two matrices.
The function add calculates sum of two matrices of the same size and the same number of channels:
\[\texttt{dst}(I) = \texttt{saturate} ( \texttt{src1}(I) + \texttt{src2}(I)) \quad \texttt{if mask}(I) \ne0\]
The function can be replaced with matrix expressions:
\[\texttt{dst} = \texttt{src1} + \texttt{src2}\]
The input matrices and the output matrix can all have the same or different depths. For example, you can add a 16-bit unsigned matrix to a 8-bit signed matrix and store the sum as a 32-bit floating-point matrix. Depth of the output matrix is determined by the ddepth parameter. If src1.depth() == src2.depth(), ddepth can be set to the default -1. In this case, the output matrix will have the same depth as the input matrices.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src1 | first input matrix. |
src2 | second input matrix. |
ddepth | optional depth of the output matrix. |
#include <opencv2/gapi/core.hpp>
Calculates the per-element sum of matrix and given scalar.
The function addC adds a given scalar value to each element of given matrix. The function can be replaced with matrix expressions:
\[\texttt{dst} = \texttt{src1} + \texttt{c}\]
Depth of the output matrix is determined by the ddepth parameter. If ddepth is set to default -1, the depth of output matrix will be the same as the depth of input matrix. The matrices can be single or multi channel. Output matrix must have the same size and number of channels as the input matrix.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src1 | first input matrix. |
c | scalar value to be added. |
ddepth | optional depth of the output matrix. |
#include <opencv2/gapi/core.hpp>
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
std::tuple<GMat, GMat> cv::gapi::cartToPolar | ( | const GMat & | x, |
const GMat & | y, | ||
bool | angleInDegrees = false |
||
) |
#include <opencv2/gapi/core.hpp>
Calculates the magnitude and angle of 2D vectors.
The function cartToPolar calculates either the magnitude, angle, or both for every 2D vector (x(I),y(I)):
\[\begin{array}{l} \texttt{magnitude} (I)= \sqrt{\texttt{x}(I)^2+\texttt{y}(I)^2} , \\ \texttt{angle} (I)= \texttt{atan2} ( \texttt{y} (I), \texttt{x} (I))[ \cdot180 / \pi ] \end{array}\]
The angles are calculated with accuracy about 0.3 degrees. For the point (0,0), the angle is set to 0.
First output is a matrix of magnitudes of the same size and depth as input x. Second output is a matrix of angles that has the same size and depth as x; the angles are measured in radians (from 0 to 2*Pi) or in degrees (0 to 360 degrees).
x | matrix of CV_32FC1 x-coordinates. |
y | array of CV_32FC1 y-coordinates. |
angleInDegrees | a flag, indicating whether the angles are measured in radians (which is by default), or in degrees. |
#include <opencv2/gapi/core.hpp>
Performs per-element division of two matrices.
The function divides one matrix by another:
\[\texttt{dst(I) = saturate(src1(I)*scale/src2(I))}\]
When src2(I) is zero, dst(I) will also be zero. Different channels of multi-channel matrices are processed independently. The matrices can be single or multi channel. Output matrix must have the same size and depth as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src1 | first input matrix. |
src2 | second input matrix of the same size and depth as src1. |
scale | scalar factor. |
ddepth | optional depth of the output matrix; you can only pass -1 when src1.depth() == src2.depth(). |
#include <opencv2/gapi/core.hpp>
Divides matrix by scalar.
The function divC divides each element of matrix src by given scalar value:
\[\texttt{dst(I) = saturate(src(I)*scale/divisor)}\]
When divisor is zero, dst(I) will also be zero. Different channels of multi-channel matrices are processed independently. The matrices can be single or multi channel. Output matrix must have the same size and depth as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src | input matrix. |
divisor | number to be divided by. |
ddepth | optional depth of the output matrix. If -1, the depth of output matrix will be the same as input matrix depth. |
scale | scale factor. |
#include <opencv2/gapi/core.hpp>
Divides scalar by matrix.
The function divRC divides given scalar by each element of matrix src and keep the division result in new matrix of the same size and type as src:
\[\texttt{dst(I) = saturate(divident*scale/src(I))}\]
When src(I) is zero, dst(I) will also be zero. Different channels of multi-channel matrices are processed independently. The matrices can be single or multi channel. Output matrix must have the same size and depth as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src | input matrix. |
divident | number to be divided. |
ddepth | optional depth of the output matrix. If -1, the depth of output matrix will be the same as input matrix depth. |
scale | scale factor |
#include <opencv2/gapi/core.hpp>
Applies a mask to a matrix.
The function mask set value from given matrix if the corresponding pixel value in mask matrix set to true, and set the matrix value to 0 overwise.
Supported src matrix data types are CV_8UC1, CV_16SC1, CV_16UC1. Supported mask data type is CV_8UC1.
src | input matrix. |
mask | input mask matrix. |
#include <opencv2/gapi/core.hpp>
Calculates an average (mean) of matrix elements.
The function mean calculates the mean value M of matrix elements, independently for each channel, and return it.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src | input matrix. |
#include <opencv2/gapi/core.hpp>
Calculates the per-element scaled product of two matrices.
The function mul calculates the per-element product of two matrices:
\[\texttt{dst} (I)= \texttt{saturate} ( \texttt{scale} \cdot \texttt{src1} (I) \cdot \texttt{src2} (I))\]
If src1.depth() == src2.depth(), ddepth can be set to the default -1. In this case, the output matrix will have the same depth as the input matrices. The matrices can be single or multi channel. Output matrix must have the same size as input matrices.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src1 | first input matrix. |
src2 | second input matrix of the same size and the same depth as src1. |
scale | optional scale factor. |
ddepth | optional depth of the output matrix. |
#include <opencv2/gapi/core.hpp>
Multiplies matrix by scalar.
The function mulC multiplies each element of matrix src by given scalar value:
\[\texttt{dst} (I)= \texttt{saturate} ( \texttt{src1} (I) \cdot \texttt{multiplier} )\]
The matrices can be single or multi channel. Output matrix must have the same size as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src | input matrix. |
multiplier | factor to be multiplied. |
ddepth | optional depth of the output matrix. If -1, the depth of output matrix will be the same as input matrix depth. |
#include <opencv2/gapi/core.hpp>
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
#include <opencv2/gapi/core.hpp>
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
#include <opencv2/gapi/core.hpp>
Calculates the rotation angle of 2D vectors.
The function cv::phase calculates the rotation angle of each 2D vector that is formed from the corresponding elements of x and y :
\[\texttt{angle} (I) = \texttt{atan2} ( \texttt{y} (I), \texttt{x} (I))\]
The angle estimation accuracy is about 0.3 degrees. When x(I)=y(I)=0 , the corresponding angle(I) is set to 0.
x | input floating-point array of x-coordinates of 2D vectors. |
y | input array of y-coordinates of 2D vectors; it must have the same size and the same type as x. |
angleInDegrees | when true, the function calculates the angle in degrees, otherwise, they are measured in radians. |
std::tuple<GMat, GMat> cv::gapi::polarToCart | ( | const GMat & | magnitude, |
const GMat & | angle, | ||
bool | angleInDegrees = false |
||
) |
#include <opencv2/gapi/core.hpp>
Calculates x and y coordinates of 2D vectors from their magnitude and angle.
The function polarToCart calculates the Cartesian coordinates of each 2D vector represented by the corresponding elements of magnitude and angle:
\[\begin{array}{l} \texttt{x} (I) = \texttt{magnitude} (I) \cos ( \texttt{angle} (I)) \\ \texttt{y} (I) = \texttt{magnitude} (I) \sin ( \texttt{angle} (I)) \\ \end{array}\]
The relative accuracy of the estimated coordinates is about 1e-6.
First output is a matrix of x-coordinates of 2D vectors. Second output is a matrix of y-coordinates of 2D vectors. Both output must have the same size and depth as input matrices.
magnitude | input floating-point CV_32FC1 matrix (1xN) of magnitudes of 2D vectors; |
angle | input floating-point CV_32FC1 matrix (1xN) of angles of 2D vectors. |
angleInDegrees | when true, the input angles are measured in degrees, otherwise, they are measured in radians. |
#include <opencv2/gapi/core.hpp>
Calculates a square root of array elements.
The function cv::gapi::sqrt calculates a square root of each input array element. In case of multi-channel arrays, each channel is processed independently. The accuracy is approximately the same as of the built-in std::sqrt .
src | input floating-point array. |
#include <opencv2/gapi/core.hpp>
Calculates the per-element difference between two matrices.
The function sub calculates difference between two matrices, when both matrices have the same size and the same number of channels:
\[\texttt{dst}(I) = \texttt{src1}(I) - \texttt{src2}(I)\]
The function can be replaced with matrix expressions:
\[\texttt{dst} = \texttt{src1} - \texttt{src2}\]
The input matrices and the output matrix can all have the same or different depths. For example, you can subtract two 8-bit unsigned matrices store the result as a 16-bit signed matrix. Depth of the output matrix is determined by the ddepth parameter. If src1.depth() == src2.depth(), ddepth can be set to the default -1. In this case, the output matrix will have the same depth as the input matrices. The matrices can be single or multi channel.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src1 | first input matrix. |
src2 | second input matrix. |
ddepth | optional depth of the output matrix. |
#include <opencv2/gapi/core.hpp>
Calculates the per-element difference between matrix and given scalar.
The function can be replaced with matrix expressions:
\[\texttt{dst} = \texttt{src} - \texttt{c}\]
Depth of the output matrix is determined by the ddepth parameter. If ddepth is set to default -1, the depth of output matrix will be the same as the depth of input matrix. The matrices can be single or multi channel. Output matrix must have the same size as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
src | first input matrix. |
c | scalar value to subtracted. |
ddepth | optional depth of the output matrix. |
#include <opencv2/gapi/core.hpp>
Calculates the per-element difference between given scalar and the matrix.
The function can be replaced with matrix expressions:
\[\texttt{dst} = \texttt{val} - \texttt{src}\]
Depth of the output matrix is determined by the ddepth parameter. If ddepth is set to default -1, the depth of output matrix will be the same as the depth of input matrix. The matrices can be single or multi channel. Output matrix must have the same size as src.
Supported matrix data types are CV_8UC1, CV_8UC3, CV_16UC1, CV_16SC1, CV_32FC1.
c | scalar value to subtract from. |
src | input matrix to be subtracted. |
ddepth | optional depth of the output matrix. |