Package | Description |
---|---|
org.bytedeco.opencv.global | |
org.bytedeco.opencv.opencv_core | |
org.bytedeco.opencv.opencv_ml |
Modifier and Type | Method and Description |
---|---|
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
DoublePointer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(GpuMat src1,
GpuMat src2,
GpuMat window,
DoublePointer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
DoublePointer response)
\brief The function is used to detect translational shifts that occur between two images.
|
static Point2d |
opencv_imgproc.phaseCorrelate(Mat src1,
Mat src2,
Mat window,
DoublePointer response)
\brief The function is used to detect translational shifts that occur between two images.
|
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
double[] response) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
DoubleBuffer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
DoublePointer response) |
static Point2d |
opencv_imgproc.phaseCorrelate(UMat src1,
UMat src2,
UMat window,
DoublePointer response) |
Modifier and Type | Method and Description |
---|---|
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(GpuMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio)
\brief Computes useful camera characteristics from the camera intrinsic matrix.
|
static void |
opencv_calib3d.calibrationMatrixValues(Mat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio)
\brief Computes useful camera characteristics from the camera intrinsic matrix.
|
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
double[] fovx,
double[] fovy,
double[] focalLength,
Point2d principalPoint,
double[] aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoubleBuffer fovx,
DoubleBuffer fovy,
DoubleBuffer focalLength,
Point2d principalPoint,
DoubleBuffer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio) |
static void |
opencv_calib3d.calibrationMatrixValues(UMat cameraMatrix,
Size imageSize,
double apertureWidth,
double apertureHeight,
DoublePointer fovx,
DoublePointer fovy,
DoublePointer focalLength,
Point2d principalPoint,
DoublePointer aspectRatio) |
static void |
opencv_imgproc.ellipse2Poly(Point2d center,
Size2d axes,
int angle,
int arcStart,
int arcEnd,
int delta,
Point2dVector pts)
\overload
|
static void |
opencv_imgproc.ellipse2Poly(Point2d center,
Size2d axes,
int angle,
int arcStart,
int arcEnd,
int delta,
Point2dVector pts)
\overload
|
static Mat |
opencv_calib3d.findEssentialMat(GpuMat points1,
GpuMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
GpuMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(GpuMat points1,
GpuMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
GpuMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(GpuMat points1,
GpuMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
GpuMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(GpuMat points1,
GpuMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
GpuMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(Mat points1,
Mat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
Mat mask)
\overload
|
static Mat |
opencv_calib3d.findEssentialMat(Mat points1,
Mat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
Mat mask)
\overload
|
static Mat |
opencv_calib3d.findEssentialMat(Mat points1,
Mat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
Mat mask)
\overload
|
static Mat |
opencv_calib3d.findEssentialMat(Mat points1,
Mat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
Mat mask)
\overload
|
static Mat |
opencv_calib3d.findEssentialMat(UMat points1,
UMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
UMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(UMat points1,
UMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
int maxIters,
UMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(UMat points1,
UMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
UMat mask) |
static Mat |
opencv_calib3d.findEssentialMat(UMat points1,
UMat points2,
double focal,
Point2d pp,
int method,
double prob,
double threshold,
UMat mask) |
static int |
opencv_calib3d.recoverPose(GpuMat E,
GpuMat points1,
GpuMat points2,
GpuMat R,
GpuMat t,
double focal,
Point2d pp,
GpuMat mask) |
static int |
opencv_calib3d.recoverPose(GpuMat E,
GpuMat points1,
GpuMat points2,
GpuMat R,
GpuMat t,
double focal,
Point2d pp,
GpuMat mask) |
static int |
opencv_calib3d.recoverPose(Mat E,
Mat points1,
Mat points2,
Mat R,
Mat t,
double focal,
Point2d pp,
Mat mask)
\overload
|
static int |
opencv_calib3d.recoverPose(Mat E,
Mat points1,
Mat points2,
Mat R,
Mat t,
double focal,
Point2d pp,
Mat mask)
\overload
|
static int |
opencv_calib3d.recoverPose(UMat E,
UMat points1,
UMat points2,
UMat R,
UMat t,
double focal,
Point2d pp,
UMat mask) |
static int |
opencv_calib3d.recoverPose(UMat E,
UMat points1,
UMat points2,
UMat R,
UMat t,
double focal,
Point2d pp,
UMat mask) |
static void |
opencv_core.write(FileStorage fs,
BytePointer name,
Point2d val) |
static void |
opencv_core.write(FileStorage fs,
BytePointer name,
Point2d val) |
static void |
opencv_core.write(FileStorage fs,
Point2d value) |
static void |
opencv_core.write(FileStorage fs,
Point2d value) |
static void |
opencv_core.write(FileStorage fs,
String name,
Point2d val) |
static void |
opencv_core.write(FileStorage fs,
String name,
Point2d val) |
Modifier and Type | Method and Description |
---|---|
Point2d |
Point2dVector.back() |
Point2d |
Point2dVector.back() |
Point2d |
Rect2d.br()
the bottom-right corner
|
Point2d |
Rect2d.br()
the bottom-right corner
|
Point2d |
Point2dVector.front() |
Point2d |
Point2dVector.front() |
Point2d[] |
Point2dVector.get() |
Point2d |
Point2dVector.Iterator.get() |
Point2d[] |
Point2dVector.get() |
Point2d |
Point2dVector.Iterator.get() |
Point2d |
Point2dVector.get(long i) |
Point2d |
Point2dVector.get(long i) |
Point2d |
Point2d.getPointer(long i) |
Point2d |
Point2d.getPointer(long i) |
Point2d |
Point2dVector.pop_back() |
Point2d |
Point2dVector.pop_back() |
Point2d |
Point2d.position(long position) |
Point2d |
Point2d.position(long position) |
Point2d |
Point2d.put(Point2d pt) |
Point2d |
Point2d.put(Point2d pt) |
Point2d |
Rect2d.tl()
the top-left corner
|
Point2d |
Rect2d.tl()
the top-left corner
|
Point2d |
Point2d.x(double setter) |
Point2d |
Point2d.x(double setter) |
Point2d |
Point2d.y(double setter) |
Point2d |
Point2d.y(double setter) |
Modifier and Type | Method and Description |
---|---|
boolean |
Rect2d.contains(Point2d pt)
checks whether the rectangle contains the point
|
boolean |
Rect2d.contains(Point2d pt)
checks whether the rectangle contains the point
|
double |
Point2d.cross(Point2d pt)
cross-product
|
double |
Point2d.cross(Point2d pt)
cross-product
|
double |
Point2d.ddot(Point2d pt)
dot product computed in double-precision arithmetics
|
double |
Point2d.ddot(Point2d pt)
dot product computed in double-precision arithmetics
|
double |
Point2d.dot(Point2d pt)
dot product
|
double |
Point2d.dot(Point2d pt)
dot product
|
Point2dVector.Iterator |
Point2dVector.insert(Point2dVector.Iterator pos,
Point2d value) |
Point2dVector.Iterator |
Point2dVector.insert(Point2dVector.Iterator pos,
Point2d value) |
Point2dVector |
Point2dVector.push_back(Point2d value) |
Point2dVector |
Point2dVector.push_back(Point2d value) |
Point2dVector |
Point2dVector.put(long i,
Point2d value) |
Point2dVector |
Point2dVector.put(long i,
Point2d value) |
Point2dVector |
Point2dVector.put(Point2d... array) |
Point2dVector |
Point2dVector.put(Point2d... array) |
Point2d |
Point2d.put(Point2d pt) |
Point2dVector |
Point2dVector.put(Point2d value) |
Point2dVector |
Point2dVector.put(Point2d value) |
Point2d |
Point2d.put(Point2d pt) |
Constructor and Description |
---|
Mat(Point2d points)
Calls
Mat(points, false) . |
Mat(Point2d points)
Calls
Mat(points, false) . |
Mat(Point2d points,
boolean copyData)
|
Mat(Point2d points,
boolean copyData)
|
Point2d(Point2d pt) |
Point2d(Point2d pt) |
Point2dVector(Point2d... array) |
Point2dVector(Point2d... array) |
Point2dVector(Point2d value) |
Point2dVector(Point2d value) |
Point3d(Point2d pt) |
Point3d(Point2d pt) |
Rect2d(Point2d pt1,
Point2d pt2) |
Rect2d(Point2d pt1,
Point2d pt2) |
Rect2d(Point2d org,
Size2d sz) |
Rect2d(Point2d org,
Size2d sz) |
Size2d(Point2d pt) |
Size2d(Point2d pt) |
Modifier and Type | Method and Description |
---|---|
Point2d |
EM.predict2(GpuMat sample,
GpuMat probs) |
Point2d |
EM.predict2(GpuMat sample,
GpuMat probs) |
Point2d |
EM.predict2(Mat sample,
Mat probs)
\brief Returns a likelihood logarithm value and an index of the most probable mixture component
for the given sample.
|
Point2d |
EM.predict2(Mat sample,
Mat probs)
\brief Returns a likelihood logarithm value and an index of the most probable mixture component
for the given sample.
|
Point2d |
EM.predict2(UMat sample,
UMat probs) |
Point2d |
EM.predict2(UMat sample,
UMat probs) |
Copyright © 2024. All rights reserved.