| Package | Description |
|---|---|
| org.bytedeco.javacpp | |
| org.bytedeco.javacpp.helper |
| Modifier and Type | Class and Description |
|---|---|
static class |
opencv_core.CvChain
Chain/Contour
|
static class |
opencv_core.CvContour |
static class |
opencv_core.CvGraph
Graph is "derived" from the set (this is set a of vertices)
and includes another set (edges)
|
static class |
opencv_core.CvMat
Deprecated.
CvMat is now obsolete; consider using Mat instead.
|
static class |
opencv_core.CvMatND
Deprecated.
consider using cv::Mat instead
|
static class |
opencv_core.CvSeq
Pointer to the first sequence block.
|
static class |
opencv_core.CvSet |
static class |
opencv_core.CvSparseMat |
static class |
opencv_core.IplImage
The IplImage is taken from the Intel Image Processing Library, in which the format is native.
|
| Modifier and Type | Method and Description |
|---|---|
opencv_core.CvArr |
opencv_core.CvHistogram.bins() |
static opencv_core.CvArr |
opencv_core.cvRange(opencv_core.CvArr mat,
double start,
double end)
Fills matrix with given range of numbers
|
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
int[] new_sizes) |
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
IntBuffer new_sizes) |
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
org.bytedeco.javacpp.IntPointer new_sizes)
\brief Changes the shape of a multi-dimensional array without copying the data.
|
| Modifier and Type | Method and Description |
|---|---|
opencv_core.CvHistogram |
opencv_core.CvHistogram.bins(opencv_core.CvArr bins) |
static void |
opencv_core.cvAbsDiff(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst)
dst(x,y,c) = abs(src1(x,y,c) - src2(x,y,c))
|
static void |
opencv_core.cvAbsDiffS(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvScalar value)
dst(x,y,c) = abs(src(x,y,c) - value(c))
|
static void |
opencv_imgproc.cvAcc(opencv_core.CvArr image,
opencv_core.CvArr sum) |
static void |
opencv_imgproc.cvAcc(opencv_core.CvArr image,
opencv_core.CvArr sum,
opencv_core.CvArr mask)
\brief Adds image to accumulator
|
static void |
opencv_imgproc.cvAdaptiveThreshold(opencv_core.CvArr src,
opencv_core.CvArr dst,
double max_value) |
static void |
opencv_imgproc.cvAdaptiveThreshold(opencv_core.CvArr src,
opencv_core.CvArr dst,
double max_value,
int adaptive_method,
int threshold_type,
int block_size,
double param1)
\brief Applies adaptive threshold to grayscale image.
|
static void |
opencv_core.cvAdd(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvAdd(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(mask) = src1(mask) + src2(mask)
|
static void |
opencv_core.cvAddS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvAddS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(mask) = src(mask) + value
|
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
int[] org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
IntBuffer org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
opencv_core.CvPoint org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
String text,
int[] org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
String text,
IntBuffer org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_highgui.cvAddText(opencv_core.CvArr img,
String text,
opencv_core.CvPoint org,
opencv_imgproc.CvFont arg2) |
static void |
opencv_core.cvAddWeighted(opencv_core.CvArr src1,
double alpha,
opencv_core.CvArr src2,
double beta,
double gamma,
opencv_core.CvArr dst)
dst = src1 * alpha + src2 * beta + gamma
|
static void |
opencv_core.cvAnd(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvAnd(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src1(idx) & src2(idx)
|
static void |
opencv_core.cvAndS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvAndS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src(idx) & value
|
static opencv_core.Mat |
opencv_core.cvarrToMat(opencv_core.CvArr arr) |
static opencv_core.Mat |
opencv_core.cvarrToMat(opencv_core.CvArr arr,
boolean copyData,
boolean allowND,
int coiMode,
org.bytedeco.javacpp.Pointer buf)
\addtogroup core_c_glue
\{
|
static opencv_core.Mat |
opencv_core.cvarrToMatND(opencv_core.CvArr arr) |
static opencv_core.Mat |
opencv_core.cvarrToMatND(opencv_core.CvArr arr,
boolean copyData,
int coiMode) |
static opencv_core.CvScalar |
opencv_core.cvAvg(opencv_core.CvArr arr) |
static opencv_core.CvScalar |
opencv_core.cvAvg(opencv_core.CvArr arr,
opencv_core.CvArr mask)
Calculates mean value of array elements
|
static void |
opencv_core.cvAvgSdv(opencv_core.CvArr arr,
opencv_core.CvScalar mean,
opencv_core.CvScalar std_dev) |
static void |
opencv_core.cvAvgSdv(opencv_core.CvArr arr,
opencv_core.CvScalar mean,
opencv_core.CvScalar std_dev,
opencv_core.CvArr mask)
Calculates mean and standard deviation of pixel values
|
static void |
opencv_core.cvBackProjectPCA(opencv_core.CvArr proj,
opencv_core.CvArr mean,
opencv_core.CvArr eigenvects,
opencv_core.CvArr result) |
static opencv_core.CvRect |
opencv_imgproc.cvBoundingRect(opencv_core.CvArr points) |
static opencv_core.CvRect |
opencv_imgproc.cvBoundingRect(opencv_core.CvArr points,
int update)
\brief Calculates contour bounding rectangle (update=1) or
just retrieves pre-calculated rectangle (update=0)
|
static void |
opencv_imgproc.cvCalcArrBackProject(opencv_core.CvArr image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcArrBackProject(org.bytedeco.javacpp.PointerPointer image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist)
\brief Calculates back project
|
static void |
opencv_imgproc.cvCalcArrBackProjectPatch(opencv_core.CvArr image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_imgproc.cvCalcArrBackProjectPatch(org.bytedeco.javacpp.PointerPointer image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor)
\brief Locates a template within an image by using a histogram comparison.
|
static void |
opencv_imgproc.cvCalcArrHist(opencv_core.CvArr arr,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcArrHist(opencv_core.CvArr arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvCalcArrHist(org.bytedeco.javacpp.PointerPointer arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask)
\brief Calculates array histogram
|
static void |
opencv_imgproc.cvCalcBackProject(opencv_core.IplImage image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcBackProject(org.bytedeco.javacpp.PointerPointer image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcBackProjectPatch(opencv_core.IplImage image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_imgproc.cvCalcBackProjectPatch(org.bytedeco.javacpp.PointerPointer image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_core.cvCalcCovarMatrix(opencv_core.CvArr vects,
int count,
opencv_core.CvArr cov_mat,
opencv_core.CvArr avg,
int flags) |
static void |
opencv_core.cvCalcCovarMatrix(org.bytedeco.javacpp.PointerPointer vects,
int count,
opencv_core.CvArr cov_mat,
opencv_core.CvArr avg,
int flags)
Calculates covariation matrix for a set of vectors
|
static float |
opencv_imgproc.cvCalcEMD2(opencv_core.CvArr signature1,
opencv_core.CvArr signature2,
int distance_type) |
static float |
opencv_imgproc.cvCalcEMD2(opencv_core.CvArr signature1,
opencv_core.CvArr signature2,
int distance_type,
opencv_imgproc.CvDistanceFunction distance_func,
opencv_core.CvArr cost_matrix,
opencv_core.CvArr flow,
float[] lower_bound,
org.bytedeco.javacpp.Pointer userdata) |
static float |
opencv_imgproc.cvCalcEMD2(opencv_core.CvArr signature1,
opencv_core.CvArr signature2,
int distance_type,
opencv_imgproc.CvDistanceFunction distance_func,
opencv_core.CvArr cost_matrix,
opencv_core.CvArr flow,
FloatBuffer lower_bound,
org.bytedeco.javacpp.Pointer userdata) |
static float |
opencv_imgproc.cvCalcEMD2(opencv_core.CvArr signature1,
opencv_core.CvArr signature2,
int distance_type,
opencv_imgproc.CvDistanceFunction distance_func,
opencv_core.CvArr cost_matrix,
opencv_core.CvArr flow,
org.bytedeco.javacpp.FloatPointer lower_bound,
org.bytedeco.javacpp.Pointer userdata)
\brief Computes earth mover distance between
two weighted point sets (called signatures)
|
static void |
opencv_imgproc.cvCalcHist(opencv_core.IplImage image,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvCalcHist(org.bytedeco.javacpp.PointerPointer image,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask)
\overload
|
static void |
opencv_video.cvCalcOpticalFlowFarneback(opencv_core.CvArr prev,
opencv_core.CvArr next,
opencv_core.CvArr flow,
double pyr_scale,
int levels,
int winsize,
int iterations,
int poly_n,
double poly_sigma,
int flags) |
static void |
opencv_video.cvCalcOpticalFlowPyrLK(opencv_core.CvArr prev,
opencv_core.CvArr curr,
opencv_core.CvArr prev_pyr,
opencv_core.CvArr curr_pyr,
float[] prev_features,
float[] curr_features,
int count,
opencv_core.CvSize win_size,
int level,
byte[] status,
float[] track_error,
opencv_core.CvTermCriteria criteria,
int flags) |
static void |
opencv_video.cvCalcOpticalFlowPyrLK(opencv_core.CvArr prev,
opencv_core.CvArr curr,
opencv_core.CvArr prev_pyr,
opencv_core.CvArr curr_pyr,
FloatBuffer prev_features,
FloatBuffer curr_features,
int count,
opencv_core.CvSize win_size,
int level,
ByteBuffer status,
FloatBuffer track_error,
opencv_core.CvTermCriteria criteria,
int flags) |
static void |
opencv_video.cvCalcOpticalFlowPyrLK(opencv_core.CvArr prev,
opencv_core.CvArr curr,
opencv_core.CvArr prev_pyr,
opencv_core.CvArr curr_pyr,
opencv_core.CvPoint2D32f prev_features,
opencv_core.CvPoint2D32f curr_features,
int count,
opencv_core.CvSize win_size,
int level,
org.bytedeco.javacpp.BytePointer status,
org.bytedeco.javacpp.FloatPointer track_error,
opencv_core.CvTermCriteria criteria,
int flags) |
static void |
opencv_core.cvCalcPCA(opencv_core.CvArr data,
opencv_core.CvArr mean,
opencv_core.CvArr eigenvals,
opencv_core.CvArr eigenvects,
int flags) |
static int |
opencv_video.cvCamShift(opencv_core.CvArr prob_image,
opencv_core.CvRect window,
opencv_core.CvTermCriteria criteria,
opencv_imgproc.CvConnectedComp comp) |
static int |
opencv_video.cvCamShift(opencv_core.CvArr prob_image,
opencv_core.CvRect window,
opencv_core.CvTermCriteria criteria,
opencv_imgproc.CvConnectedComp comp,
opencv_core.CvBox2D box)
\
Tracking *
\
|
static void |
opencv_imgproc.cvCanny(opencv_core.CvArr image,
opencv_core.CvArr edges,
double threshold1,
double threshold2) |
static void |
opencv_imgproc.cvCanny(opencv_core.CvArr image,
opencv_core.CvArr edges,
double threshold1,
double threshold2,
int aperture_size)
\brief Runs canny edge detector
|
static void |
opencv_core.cvCartToPolar(opencv_core.CvArr x,
opencv_core.CvArr y,
opencv_core.CvArr magnitude) |
static void |
opencv_core.cvCartToPolar(opencv_core.CvArr x,
opencv_core.CvArr y,
opencv_core.CvArr magnitude,
opencv_core.CvArr angle,
int angle_in_degrees)
Does cartesian->polar coordinates conversion.
|
static int |
opencv_core.cvCheckArr(opencv_core.CvArr arr) |
static int |
opencv_core.cvCheckArr(opencv_core.CvArr arr,
int flags,
double min_val,
double max_val)
Checks array values for NaNs, Infs or simply for too large numbers
(if CV_CHECK_RANGE is set).
|
static int |
opencv_core.cvCheckArray(opencv_core.CvArr arg1,
int arg2,
double arg3,
double arg4) |
static int |
opencv_imgproc.cvCheckContourConvexity(opencv_core.CvArr contour)
\brief Checks whether the contour is convex or not (returns 1 if convex, 0 if not)
|
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
int[] center,
int radius,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
int[] center,
int radius,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
IntBuffer center,
int radius,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
IntBuffer center,
int radius,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
opencv_core.CvPoint center,
int radius,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvCircle(opencv_core.CvArr img,
opencv_core.CvPoint center,
int radius,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws a circle with specified center and radius.
|
static void |
opencv_core.cvClearND(opencv_core.CvArr arr,
int[] idx) |
static void |
opencv_core.cvClearND(opencv_core.CvArr arr,
IntBuffer idx) |
static void |
opencv_core.cvClearND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx)
clears element of ND dense array,
in case of sparse arrays it deletes the specified node
|
static void |
opencv_core.cvCmp(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
int cmp_op)
dst(idx) = src1(idx) _cmp_op_ src2(idx)
|
static void |
opencv_core.cvCmpS(opencv_core.CvArr src,
double value,
opencv_core.CvArr dst,
int cmp_op)
dst(idx) = src1(idx) _cmp_op_ value
|
static double |
opencv_imgproc.cvContourArea(opencv_core.CvArr contour) |
static double |
opencv_imgproc.cvContourArea(opencv_core.CvArr contour,
opencv_core.CvSlice slice,
int oriented)
\brief Calculates area of a contour or contour segment
|
static void |
opencv_core.cvConvert(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgcodecs.cvConvertImage(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgcodecs.cvConvertImage(opencv_core.CvArr src,
opencv_core.CvArr dst,
int flags) |
static void |
opencv_imgproc.cvConvertMaps(opencv_core.CvArr mapx,
opencv_core.CvArr mapy,
opencv_core.CvArr mapxy,
opencv_core.CvArr mapalpha)
\brief Converts mapx & mapy from floating-point to integer formats for cvRemap
|
static void |
opencv_core.cvConvertScale(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_core.cvConvertScale(opencv_core.CvArr src,
opencv_core.CvArr dst,
double scale,
double shift)
\brief Converts one array to another with optional linear transformation.
|
static void |
opencv_core.cvConvertScaleAbs(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_core.cvConvertScaleAbs(opencv_core.CvArr src,
opencv_core.CvArr dst,
double scale,
double shift)
Performs linear transformation on every source array element,
stores absolute value of the result:
dst(x,y,c) = abs(scale*src(x,y,c)+shift).
|
static opencv_core.CvSeq |
opencv_imgproc.cvConvexHull2(opencv_core.CvArr input) |
static opencv_core.CvSeq |
opencv_imgproc.cvConvexHull2(opencv_core.CvArr input,
org.bytedeco.javacpp.Pointer hull_storage,
int orientation,
int return_points)
\brief Calculates exact convex hull of 2d point set
|
static opencv_core.CvSeq |
opencv_imgproc.cvConvexityDefects(opencv_core.CvArr contour,
opencv_core.CvArr convexhull) |
static opencv_core.CvSeq |
opencv_imgproc.cvConvexityDefects(opencv_core.CvArr contour,
opencv_core.CvArr convexhull,
opencv_core.CvMemStorage storage)
\brief Finds convexity defects for the contour
|
static void |
opencv_core.cvCopy(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_core.cvCopy(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
\brief Copies one array to another.
|
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
int[] offset,
int bordertype) |
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
int[] offset,
int bordertype,
opencv_core.CvScalar value) |
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
IntBuffer offset,
int bordertype) |
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
IntBuffer offset,
int bordertype,
opencv_core.CvScalar value) |
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint offset,
int bordertype) |
static void |
opencv_imgproc.cvCopyMakeBorder(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint offset,
int bordertype,
opencv_core.CvScalar value)
Copies source 2D array inside of the larger destination array and
makes a border of the specified type (IPL_BORDER_*) around the copied area.
|
static void |
opencv_imgproc.cvCornerEigenValsAndVecs(opencv_core.CvArr image,
opencv_core.CvArr eigenvv,
int block_size) |
static void |
opencv_imgproc.cvCornerEigenValsAndVecs(opencv_core.CvArr image,
opencv_core.CvArr eigenvv,
int block_size,
int aperture_size)
\brief Calculates eigen values and vectors of 2x2
gradient covariation matrix at every image pixel
|
static void |
opencv_imgproc.cvCornerHarris(opencv_core.CvArr image,
opencv_core.CvArr harris_response,
int block_size) |
static void |
opencv_imgproc.cvCornerHarris(opencv_core.CvArr image,
opencv_core.CvArr harris_response,
int block_size,
int aperture_size,
double k)
\brief Harris corner detector:
|
static void |
opencv_imgproc.cvCornerMinEigenVal(opencv_core.CvArr image,
opencv_core.CvArr eigenval,
int block_size) |
static void |
opencv_imgproc.cvCornerMinEigenVal(opencv_core.CvArr image,
opencv_core.CvArr eigenval,
int block_size,
int aperture_size)
\brief Calculates minimal eigenvalue for 2x2 gradient covariation matrix at
every image pixel
|
static int |
opencv_core.cvCountNonZero(opencv_core.CvArr arr)
Calculates number of non-zero pixels
|
static void |
opencv_core.cvCreateData(opencv_core.CvArr arr)
\brief Allocates array data
|
static opencv_core.CvMat |
opencv_imgproc.cvCreatePyramid(opencv_core.CvArr img,
int extra_layers,
double rate) |
static org.bytedeco.javacpp.PointerPointer |
opencv_imgproc.cvCreatePyramid(opencv_core.CvArr img,
int extra_layers,
double rate,
opencv_core.CvSize layer_sizes,
opencv_core.CvArr bufarr,
int calc,
int filter)
\brief Builds pyramid for an image
|
static void |
opencv_core.cvCrossProduct(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst)
\brief Calculates the cross product of two 3D vectors.
|
static void |
opencv_imgproc.cvCvtColor(opencv_core.CvArr src,
opencv_core.CvArr dst,
int code)
\brief Converts input array pixels from one color space to another
|
static void |
opencv_core.cvCvtScale(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
double arg3,
double arg4) |
static void |
opencv_core.cvCvtScaleAbs(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
double arg3,
double arg4) |
static void |
opencv_core.cvDCT(opencv_core.CvArr src,
opencv_core.CvArr dst,
int flags)
Discrete Cosine Transform
|
static void |
opencv_core.cvDecRefData(opencv_core.CvArr arr)
\brief Decrements an array data reference counter.
|
static double |
opencv_core.cvDet(opencv_core.CvArr mat)
Calculates determinant of input matrix
|
static void |
opencv_core.cvDFT(opencv_core.CvArr src,
opencv_core.CvArr dst,
int flags) |
static void |
opencv_core.cvDFT(opencv_core.CvArr src,
opencv_core.CvArr dst,
int flags,
int nonzero_rows)
Discrete Fourier Transform:
complex->complex,
real->ccs (forward),
ccs->real (inverse)
|
static void |
opencv_imgproc.cvDilate(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvDilate(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.IplConvKernel element,
int iterations)
\brief dilates input image (applies maximum filter) one or more times.
|
static void |
opencv_imgproc.cvDistTransform(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvDistTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
int distance_type,
int mask_size,
float[] mask,
opencv_core.CvArr labels,
int labelType) |
static void |
opencv_imgproc.cvDistTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
int distance_type,
int mask_size,
FloatBuffer mask,
opencv_core.CvArr labels,
int labelType) |
static void |
opencv_imgproc.cvDistTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
int distance_type,
int mask_size,
org.bytedeco.javacpp.FloatPointer mask,
opencv_core.CvArr labels,
int labelType)
\brief Applies distance transform to binary image
|
static void |
opencv_core.cvDiv(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvDiv(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
double scale)
element-wise division/inversion with scaling:
dst(idx) = src1(idx) * scale / src2(idx)
or dst(idx) = scale / src2(idx) if src1 == 0
|
static double |
opencv_core.cvDotProduct(opencv_core.CvArr src1,
opencv_core.CvArr src2)
\brief Calculates the dot product of two arrays in Euclidean metrics.
|
static void |
opencv_calib3d.cvDrawChessboardCorners(opencv_core.CvArr image,
opencv_core.CvSize pattern_size,
float[] corners,
int count,
int pattern_was_found) |
static void |
opencv_calib3d.cvDrawChessboardCorners(opencv_core.CvArr image,
opencv_core.CvSize pattern_size,
FloatBuffer corners,
int count,
int pattern_was_found) |
static void |
opencv_calib3d.cvDrawChessboardCorners(opencv_core.CvArr image,
opencv_core.CvSize pattern_size,
opencv_core.CvPoint2D32f corners,
int count,
int pattern_was_found) |
static void |
opencv_imgproc.cvDrawCircle(opencv_core.CvArr arg1,
int[] arg2,
int arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawCircle(opencv_core.CvArr arg1,
IntBuffer arg2,
int arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawCircle(opencv_core.CvArr arg1,
opencv_core.CvPoint arg2,
int arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawContours(opencv_core.CvArr img,
opencv_core.CvSeq contour,
opencv_core.CvScalar external_color,
opencv_core.CvScalar hole_color,
int max_level) |
static void |
opencv_imgproc.cvDrawContours(opencv_core.CvArr img,
opencv_core.CvSeq contour,
opencv_core.CvScalar external_color,
opencv_core.CvScalar hole_color,
int max_level,
int thickness,
int line_type,
int[] offset) |
static void |
opencv_imgproc.cvDrawContours(opencv_core.CvArr img,
opencv_core.CvSeq contour,
opencv_core.CvScalar external_color,
opencv_core.CvScalar hole_color,
int max_level,
int thickness,
int line_type,
IntBuffer offset) |
static void |
opencv_imgproc.cvDrawContours(opencv_core.CvArr img,
opencv_core.CvSeq contour,
opencv_core.CvScalar external_color,
opencv_core.CvScalar hole_color,
int max_level,
int thickness,
int line_type,
opencv_core.CvPoint offset)
\brief Draws contour outlines or filled interiors on the image
|
static void |
opencv_imgproc.cvDrawEllipse(opencv_core.CvArr arg1,
int[] arg2,
opencv_core.CvSize arg3,
double arg4,
double arg5,
double arg6,
opencv_core.CvScalar arg7,
int arg8,
int arg9,
int arg10) |
static void |
opencv_imgproc.cvDrawEllipse(opencv_core.CvArr arg1,
IntBuffer arg2,
opencv_core.CvSize arg3,
double arg4,
double arg5,
double arg6,
opencv_core.CvScalar arg7,
int arg8,
int arg9,
int arg10) |
static void |
opencv_imgproc.cvDrawEllipse(opencv_core.CvArr arg1,
opencv_core.CvPoint arg2,
opencv_core.CvSize arg3,
double arg4,
double arg5,
double arg6,
opencv_core.CvScalar arg7,
int arg8,
int arg9,
int arg10) |
static void |
opencv_imgproc.cvDrawLine(opencv_core.CvArr arg1,
int[] arg2,
int[] arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawLine(opencv_core.CvArr arg1,
IntBuffer arg2,
IntBuffer arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawLine(opencv_core.CvArr arg1,
opencv_core.CvPoint arg2,
opencv_core.CvPoint arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawPolyLine(opencv_core.CvArr arg1,
int[] arg2,
int[] arg3,
int arg4,
int arg5,
opencv_core.CvScalar arg6,
int arg7,
int arg8,
int arg9) |
static void |
opencv_imgproc.cvDrawPolyLine(opencv_core.CvArr arg1,
IntBuffer arg2,
IntBuffer arg3,
int arg4,
int arg5,
opencv_core.CvScalar arg6,
int arg7,
int arg8,
int arg9) |
static void |
opencv_imgproc.cvDrawPolyLine(opencv_core.CvArr arg1,
opencv_core.CvPoint arg2,
org.bytedeco.javacpp.IntPointer arg3,
int arg4,
int arg5,
opencv_core.CvScalar arg6,
int arg7,
int arg8,
int arg9) |
static void |
opencv_imgproc.cvDrawPolyLine(opencv_core.CvArr arg1,
org.bytedeco.javacpp.PointerPointer arg2,
org.bytedeco.javacpp.IntPointer arg3,
int arg4,
int arg5,
opencv_core.CvScalar arg6,
int arg7,
int arg8,
int arg9) |
static void |
opencv_imgproc.cvDrawRect(opencv_core.CvArr arg1,
int[] arg2,
int[] arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawRect(opencv_core.CvArr arg1,
IntBuffer arg2,
IntBuffer arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_imgproc.cvDrawRect(opencv_core.CvArr arg1,
opencv_core.CvPoint arg2,
opencv_core.CvPoint arg3,
opencv_core.CvScalar arg4,
int arg5,
int arg6,
int arg7) |
static void |
opencv_core.cvEigenVV(opencv_core.CvArr mat,
opencv_core.CvArr evects,
opencv_core.CvArr evals) |
static void |
opencv_core.cvEigenVV(opencv_core.CvArr mat,
opencv_core.CvArr evects,
opencv_core.CvArr evals,
double eps,
int lowindex,
int highindex)
Finds eigen values and vectors of a symmetric matrix
|
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
int[] center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
int[] center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
IntBuffer center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
IntBuffer center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
opencv_core.CvPoint center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvEllipse(opencv_core.CvArr img,
opencv_core.CvPoint center,
opencv_core.CvSize axes,
double angle,
double start_angle,
double end_angle,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws ellipse outline, filled ellipse, elliptic arc or filled elliptic sector
|
static void |
opencv_imgproc.cvEllipseBox(opencv_core.CvArr img,
opencv_core.CvBox2D box,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvEllipseBox(opencv_core.CvArr img,
opencv_core.CvBox2D box,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(org.bytedeco.javacpp.BytePointer ext,
opencv_core.CvArr image) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(org.bytedeco.javacpp.BytePointer ext,
opencv_core.CvArr image,
int[] params) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(org.bytedeco.javacpp.BytePointer ext,
opencv_core.CvArr image,
IntBuffer params) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(org.bytedeco.javacpp.BytePointer ext,
opencv_core.CvArr image,
org.bytedeco.javacpp.IntPointer params) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(String ext,
opencv_core.CvArr image) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(String ext,
opencv_core.CvArr image,
int[] params) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(String ext,
opencv_core.CvArr image,
IntBuffer params) |
static opencv_core.CvMat |
opencv_imgcodecs.cvEncodeImage(String ext,
opencv_core.CvArr image,
org.bytedeco.javacpp.IntPointer params) |
static void |
opencv_imgproc.cvEqualizeHist(opencv_core.CvArr src,
opencv_core.CvArr dst)
\brief equalizes histogram of 8-bit single-channel image
|
static void |
opencv_imgproc.cvErode(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvErode(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.IplConvKernel element,
int iterations)
\brief erodes input image (applies minimum filter) one or more times.
|
static int |
opencv_video.cvEstimateRigidTransform(opencv_core.CvArr A,
opencv_core.CvArr B,
opencv_core.CvMat M,
int full_affine) |
static void |
opencv_core.cvExp(opencv_core.CvArr src,
opencv_core.CvArr dst)
Does exponention: dst(idx) = exp(src(idx)).
|
static void |
opencv_core.cvFFT(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
int arg3,
int arg4) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
int[] pts,
int npts,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
int[] pts,
int npts,
opencv_core.CvScalar color,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
IntBuffer pts,
int npts,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
IntBuffer pts,
int npts,
opencv_core.CvScalar color,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
opencv_core.CvPoint pts,
int npts,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillConvexPoly(opencv_core.CvArr img,
opencv_core.CvPoint pts,
int npts,
opencv_core.CvScalar color,
int line_type,
int shift)
\brief Fills convex or monotonous polygon.
|
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
int[] pts,
int[] npts,
int contours,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
int[] pts,
int[] npts,
int contours,
opencv_core.CvScalar color,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
IntBuffer pts,
IntBuffer npts,
int contours,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
IntBuffer pts,
IntBuffer npts,
int contours,
opencv_core.CvScalar color,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
opencv_core.CvPoint pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
opencv_core.CvPoint pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
opencv_core.CvScalar color,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
org.bytedeco.javacpp.PointerPointer pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
opencv_core.CvScalar color,
int line_type,
int shift)
\brief Fills an area bounded by one or more arbitrary polygons
|
static void |
opencv_imgproc.cvFilter2D(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat kernel) |
static void |
opencv_imgproc.cvFilter2D(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat kernel,
int[] anchor) |
static void |
opencv_imgproc.cvFilter2D(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat kernel,
IntBuffer anchor) |
static void |
opencv_imgproc.cvFilter2D(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat kernel,
opencv_core.CvPoint anchor)
\brief Convolves an image with the kernel.
|
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
opencv_core.CvSeq first_contour) |
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
opencv_core.CvSeq first_contour,
int header_size,
int mode,
int method,
int[] offset) |
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
opencv_core.CvSeq first_contour,
int header_size,
int mode,
int method,
IntBuffer offset) |
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
opencv_core.CvSeq first_contour,
int header_size,
int mode,
int method,
opencv_core.CvPoint offset) |
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
org.bytedeco.javacpp.PointerPointer first_contour,
int header_size,
int mode,
int method,
opencv_core.CvPoint offset)
\brief Retrieves outer and optionally inner boundaries of white (non-zero) connected
components in the black (zero) background
|
static void |
opencv_imgproc.cvFindCornerSubPix(opencv_core.CvArr image,
float[] corners,
int count,
opencv_core.CvSize win,
opencv_core.CvSize zero_zone,
opencv_core.CvTermCriteria criteria) |
static void |
opencv_imgproc.cvFindCornerSubPix(opencv_core.CvArr image,
FloatBuffer corners,
int count,
opencv_core.CvSize win,
opencv_core.CvSize zero_zone,
opencv_core.CvTermCriteria criteria) |
static void |
opencv_imgproc.cvFindCornerSubPix(opencv_core.CvArr image,
opencv_core.CvPoint2D32f corners,
int count,
opencv_core.CvSize win,
opencv_core.CvSize zero_zone,
opencv_core.CvTermCriteria criteria)
\brief Adjust corner position using some sort of gradient search
|
static void |
opencv_calib3d.cvFindStereoCorrespondenceBM(opencv_core.CvArr left,
opencv_core.CvArr right,
opencv_core.CvArr disparity,
opencv_calib3d.CvStereoBMState state) |
static opencv_core.CvBox2D |
opencv_imgproc.cvFitEllipse2(opencv_core.CvArr points)
\brief Fits ellipse into a set of 2d points
|
static void |
opencv_imgproc.cvFitLine(opencv_core.CvArr points,
int dist_type,
double param,
double reps,
double aeps,
float[] line) |
static void |
opencv_imgproc.cvFitLine(opencv_core.CvArr points,
int dist_type,
double param,
double reps,
double aeps,
FloatBuffer line) |
static void |
opencv_imgproc.cvFitLine(opencv_core.CvArr points,
int dist_type,
double param,
double reps,
double aeps,
org.bytedeco.javacpp.FloatPointer line)
\brief Fits a line into set of 2d or 3d points in a robust way (M-estimator technique)
|
static void |
opencv_core.cvFlip(opencv_core.CvArr src) |
static void |
opencv_core.cvFlip(opencv_core.CvArr src,
opencv_core.CvArr dst,
int flip_mode)
Mirror array data around horizontal (flip=0),
vertical (flip=1) or both(flip=-1) axises:
cvFlip(src) flips images vertically and sequences horizontally (inplace)
|
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
int[] seed_point,
opencv_core.CvScalar new_val) |
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
int[] seed_point,
opencv_core.CvScalar new_val,
opencv_core.CvScalar lo_diff,
opencv_core.CvScalar up_diff,
opencv_imgproc.CvConnectedComp comp,
int flags,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
IntBuffer seed_point,
opencv_core.CvScalar new_val) |
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
IntBuffer seed_point,
opencv_core.CvScalar new_val,
opencv_core.CvScalar lo_diff,
opencv_core.CvScalar up_diff,
opencv_imgproc.CvConnectedComp comp,
int flags,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
opencv_core.CvPoint seed_point,
opencv_core.CvScalar new_val) |
static void |
opencv_imgproc.cvFloodFill(opencv_core.CvArr image,
opencv_core.CvPoint seed_point,
opencv_core.CvScalar new_val,
opencv_core.CvScalar lo_diff,
opencv_core.CvScalar up_diff,
opencv_imgproc.CvConnectedComp comp,
int flags,
opencv_core.CvArr mask)
\brief Fills the connected component until the color difference gets large enough
|
static void |
opencv_core.cvGEMM(opencv_core.CvArr src1,
opencv_core.CvArr src2,
double alpha,
opencv_core.CvArr src3,
double beta,
opencv_core.CvArr dst) |
static void |
opencv_core.cvGEMM(opencv_core.CvArr src1,
opencv_core.CvArr src2,
double alpha,
opencv_core.CvArr src3,
double beta,
opencv_core.CvArr dst,
int tABC)
Extended matrix transform:
dst = alpha*op(A)*op(B) + beta*op(C), where op(X) is X or X^T
|
static opencv_core.CvScalar |
opencv_core.cvGet1D(opencv_core.CvArr arr,
int idx0)
\brief Return a specific array element.
|
static opencv_core.CvScalar |
opencv_core.cvGet2D(opencv_core.CvArr arr,
int idx0,
int idx1)
\overload
|
static opencv_core.CvScalar |
opencv_core.cvGet3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2)
\overload
|
static opencv_core.CvMat |
opencv_core.cvGetCol(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int col)
\overload
|
static opencv_core.CvMat |
opencv_core.cvGetCols(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int start_col,
int end_col)
\brief Returns one of more array columns.
|
static opencv_core.CvMat |
opencv_core.cvGetDiag(opencv_core.CvArr arr,
opencv_core.CvMat submat) |
static opencv_core.CvMat |
opencv_core.cvGetDiag(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int diag)
\brief Returns one of array diagonals.
|
static int |
opencv_core.cvGetDims(opencv_core.CvArr arr) |
static int |
opencv_core.cvGetDims(opencv_core.CvArr arr,
int[] sizes) |
static int |
opencv_core.cvGetDims(opencv_core.CvArr arr,
IntBuffer sizes) |
static int |
opencv_core.cvGetDims(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer sizes)
\brief Return number of array dimensions
|
static int |
opencv_core.cvGetDimSize(opencv_core.CvArr arr,
int index)
\brief Returns array size along the specified dimension.
|
static int |
opencv_core.cvGetElemType(opencv_core.CvArr arr)
\brief Returns type of array elements.
|
static opencv_core.IplImage |
opencv_core.cvGetImage(opencv_core.CvArr arr,
opencv_core.IplImage image_header)
\brief Returns image header for arbitrary array.
|
static opencv_core.CvMat |
opencv_core.cvGetMat(opencv_core.CvArr arr,
opencv_core.CvMat header) |
static opencv_core.CvMat |
opencv_core.cvGetMat(opencv_core.CvArr arr,
opencv_core.CvMat header,
int[] coi,
int allowND) |
static opencv_core.CvMat |
opencv_core.cvGetMat(opencv_core.CvArr arr,
opencv_core.CvMat header,
IntBuffer coi,
int allowND) |
static opencv_core.CvMat |
opencv_core.cvGetMat(opencv_core.CvArr arr,
opencv_core.CvMat header,
org.bytedeco.javacpp.IntPointer coi,
int allowND)
\brief Returns matrix header for arbitrary array.
|
static opencv_core.CvScalar |
opencv_core.cvGetND(opencv_core.CvArr arr,
int[] idx) |
static opencv_core.CvScalar |
opencv_core.cvGetND(opencv_core.CvArr arr,
IntBuffer idx) |
static opencv_core.CvScalar |
opencv_core.cvGetND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx)
\overload
|
static void |
opencv_imgproc.cvGetQuadrangleSubPix(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat map_matrix)
\brief Retrieves quadrangle from the input array.
|
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
byte[] data) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
byte[] data,
int[] step,
opencv_core.CvSize roi_size) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
ByteBuffer data) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
ByteBuffer data,
IntBuffer step,
opencv_core.CvSize roi_size) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
org.bytedeco.javacpp.BytePointer data) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
org.bytedeco.javacpp.BytePointer data,
org.bytedeco.javacpp.IntPointer step,
opencv_core.CvSize roi_size) |
static void |
opencv_core.cvGetRawData(opencv_core.CvArr arr,
org.bytedeco.javacpp.PointerPointer data,
org.bytedeco.javacpp.IntPointer step,
opencv_core.CvSize roi_size)
\brief Retrieves low-level information about the array.
|
static double |
opencv_core.cvGetReal1D(opencv_core.CvArr arr,
int idx0)
\brief Return a specific element of single-channel 1D, 2D, 3D or nD array.
|
static double |
opencv_core.cvGetReal2D(opencv_core.CvArr arr,
int idx0,
int idx1)
\overload
|
static double |
opencv_core.cvGetReal3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2)
\overload
|
static double |
opencv_core.cvGetRealND(opencv_core.CvArr arr,
int[] idx) |
static double |
opencv_core.cvGetRealND(opencv_core.CvArr arr,
IntBuffer idx) |
static double |
opencv_core.cvGetRealND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx)
\overload
|
static void |
opencv_imgproc.cvGetRectSubPix(opencv_core.CvArr src,
opencv_core.CvArr dst,
float[] center) |
static void |
opencv_imgproc.cvGetRectSubPix(opencv_core.CvArr src,
opencv_core.CvArr dst,
FloatBuffer center) |
static void |
opencv_imgproc.cvGetRectSubPix(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint2D32f center)
\brief Retrieves the rectangular image region with specified center from the input array.
|
static opencv_core.CvMat |
opencv_core.cvGetRow(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int row)
\overload
|
static opencv_core.CvMat |
opencv_core.cvGetRows(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int start_row,
int end_row) |
static opencv_core.CvMat |
opencv_core.cvGetRows(opencv_core.CvArr arr,
opencv_core.CvMat submat,
int start_row,
int end_row,
int delta_row)
\brief Returns array row or row span.
|
static opencv_core.CvSize |
opencv_core.cvGetSize(opencv_core.CvArr arr)
\brief Returns size of matrix or image ROI.
|
static opencv_core.CvMat |
opencv_core.cvGetSubArr(opencv_core.CvArr arg1,
opencv_core.CvMat arg2,
opencv_core.CvRect arg3) |
static opencv_core.CvMat |
opencv_core.cvGetSubRect(opencv_core.CvArr arr,
opencv_core.CvMat submat,
opencv_core.CvRect rect)
\brief Returns matrix header corresponding to the rectangular sub-array of input image or matrix.
|
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
float[] corners,
int[] corner_count,
double quality_level,
double min_distance) |
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
float[] corners,
int[] corner_count,
double quality_level,
double min_distance,
opencv_core.CvArr mask,
int block_size,
int use_harris,
double k) |
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
FloatBuffer corners,
IntBuffer corner_count,
double quality_level,
double min_distance) |
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
FloatBuffer corners,
IntBuffer corner_count,
double quality_level,
double min_distance,
opencv_core.CvArr mask,
int block_size,
int use_harris,
double k) |
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
opencv_core.CvPoint2D32f corners,
org.bytedeco.javacpp.IntPointer corner_count,
double quality_level,
double min_distance) |
static void |
opencv_imgproc.cvGoodFeaturesToTrack(opencv_core.CvArr image,
opencv_core.CvArr eig_image,
opencv_core.CvArr temp_image,
opencv_core.CvPoint2D32f corners,
org.bytedeco.javacpp.IntPointer corner_count,
double quality_level,
double min_distance,
opencv_core.CvArr mask,
int block_size,
int use_harris,
double k)
\brief Finds a sparse set of points within the selected region
that seem to be easy to track
|
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjects(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjects(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
double scale_factor,
int min_neighbors,
int flags,
opencv_core.CvSize min_size,
opencv_core.CvSize max_size) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
int[] rejectLevels,
double[] levelWeightds) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
int[] rejectLevels,
double[] levelWeightds,
double scale_factor,
int min_neighbors,
int flags,
opencv_core.CvSize min_size,
opencv_core.CvSize max_size,
boolean outputRejectLevels) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
IntBuffer rejectLevels,
DoubleBuffer levelWeightds) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
IntBuffer rejectLevels,
DoubleBuffer levelWeightds,
double scale_factor,
int min_neighbors,
int flags,
opencv_core.CvSize min_size,
opencv_core.CvSize max_size,
boolean outputRejectLevels) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
org.bytedeco.javacpp.IntPointer rejectLevels,
org.bytedeco.javacpp.DoublePointer levelWeightds) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjectsForROC(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
org.bytedeco.javacpp.IntPointer rejectLevels,
org.bytedeco.javacpp.DoublePointer levelWeightds,
double scale_factor,
int min_neighbors,
int flags,
opencv_core.CvSize min_size,
opencv_core.CvSize max_size,
boolean outputRejectLevels)
\} objdetect_c
|
static opencv_core.CvSeq |
opencv_imgproc.cvHoughCircles(opencv_core.CvArr image,
org.bytedeco.javacpp.Pointer circle_storage,
int method,
double dp,
double min_dist) |
static opencv_core.CvSeq |
opencv_imgproc.cvHoughCircles(opencv_core.CvArr image,
org.bytedeco.javacpp.Pointer circle_storage,
int method,
double dp,
double min_dist,
double param1,
double param2,
int min_radius,
int max_radius)
\brief Finds circles in the image
|
static opencv_core.CvSeq |
opencv_imgproc.cvHoughLines2(opencv_core.CvArr image,
org.bytedeco.javacpp.Pointer line_storage,
int method,
double rho,
double theta,
int threshold) |
static opencv_core.CvSeq |
opencv_imgproc.cvHoughLines2(opencv_core.CvArr image,
org.bytedeco.javacpp.Pointer line_storage,
int method,
double rho,
double theta,
int threshold,
double param1,
double param2,
double min_theta,
double max_theta)
\brief Finds lines on binary image using one of several methods.
|
static int |
opencv_core.cvIncRefData(opencv_core.CvArr arr)
\brief Increments array data reference counter.
|
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
int[] pt1,
int[] pt2,
opencv_core.CvLineIterator line_iterator) |
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
int[] pt1,
int[] pt2,
opencv_core.CvLineIterator line_iterator,
int connectivity,
int left_to_right) |
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvLineIterator line_iterator) |
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvLineIterator line_iterator,
int connectivity,
int left_to_right) |
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvLineIterator line_iterator) |
static int |
opencv_imgproc.cvInitLineIterator(opencv_core.CvArr image,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvLineIterator line_iterator,
int connectivity,
int left_to_right)
\brief Initializes line iterator.
|
static int |
opencv_core.cvInitNArrayIterator(int count,
opencv_core.CvArr arrs,
opencv_core.CvArr mask,
opencv_core.CvMatND stubs,
opencv_core.CvNArrayIterator array_iterator) |
static int |
opencv_core.cvInitNArrayIterator(int count,
opencv_core.CvArr arrs,
opencv_core.CvArr mask,
opencv_core.CvMatND stubs,
opencv_core.CvNArrayIterator array_iterator,
int flags) |
static int |
opencv_core.cvInitNArrayIterator(int count,
org.bytedeco.javacpp.PointerPointer arrs,
opencv_core.CvArr mask,
opencv_core.CvMatND stubs,
opencv_core.CvNArrayIterator array_iterator,
int flags)
initializes iterator that traverses through several arrays simulteneously
(the function together with cvNextArraySlice is used for
N-ari element-wise operations)
|
static void |
opencv_imgproc.cvInitUndistortMap(opencv_core.CvMat camera_matrix,
opencv_core.CvMat distortion_coeffs,
opencv_core.CvArr mapx,
opencv_core.CvArr mapy)
\brief Computes transformation map from intrinsic camera parameters
that can used by cvRemap
|
static void |
opencv_imgproc.cvInitUndistortRectifyMap(opencv_core.CvMat camera_matrix,
opencv_core.CvMat dist_coeffs,
opencv_core.CvMat R,
opencv_core.CvMat new_camera_matrix,
opencv_core.CvArr mapx,
opencv_core.CvArr mapy)
\brief Computes undistortion+rectification map for a head of stereo camera
|
static void |
opencv_photo.cvInpaint(opencv_core.CvArr src,
opencv_core.CvArr inpaint_mask,
opencv_core.CvArr dst,
double inpaintRange,
int flags) |
static void |
opencv_core.cvInRange(opencv_core.CvArr src,
opencv_core.CvArr lower,
opencv_core.CvArr upper,
opencv_core.CvArr dst)
dst(idx) = lower(idx) <= src(idx) < upper(idx)
|
static void |
opencv_core.cvInRangeS(opencv_core.CvArr src,
opencv_core.CvScalar lower,
opencv_core.CvScalar upper,
opencv_core.CvArr dst)
dst(idx) = lower <= src(idx) < upper
|
static void |
opencv_imgproc.cvIntegral(opencv_core.CvArr image,
opencv_core.CvArr sum) |
static void |
opencv_imgproc.cvIntegral(opencv_core.CvArr image,
opencv_core.CvArr sum,
opencv_core.CvArr sqsum,
opencv_core.CvArr tilted_sum)
\brief Finds integral image: SUM(X,Y) = sum(x |
static void |
opencv_core.cvInv(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
int arg3) |
static double |
opencv_core.cvInvert(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static double |
opencv_core.cvInvert(opencv_core.CvArr src,
opencv_core.CvArr dst,
int method)
Inverts matrix
|
static int |
opencv_core.cvKMeans2(opencv_core.CvArr samples,
int cluster_count,
opencv_core.CvArr labels,
opencv_core.CvTermCriteria termcrit) |
static int |
opencv_core.cvKMeans2(opencv_core.CvArr samples,
int cluster_count,
opencv_core.CvArr labels,
opencv_core.CvTermCriteria termcrit,
int attempts,
long[] rng,
int flags,
opencv_core.CvArr _centers,
double[] compactness) |
static int |
opencv_core.cvKMeans2(opencv_core.CvArr samples,
int cluster_count,
opencv_core.CvArr labels,
opencv_core.CvTermCriteria termcrit,
int attempts,
LongBuffer rng,
int flags,
opencv_core.CvArr _centers,
DoubleBuffer compactness) |
static int |
opencv_core.cvKMeans2(opencv_core.CvArr samples,
int cluster_count,
opencv_core.CvArr labels,
opencv_core.CvTermCriteria termcrit,
int attempts,
org.bytedeco.javacpp.LongPointer rng,
int flags,
opencv_core.CvArr _centers,
org.bytedeco.javacpp.DoublePointer compactness) |
static void |
opencv_imgproc.cvLaplace(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvLaplace(opencv_core.CvArr src,
opencv_core.CvArr dst,
int aperture_size)
\brief Calculates the image Laplacian: (d2/dx + d2/dy)I
|
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
int[] pt1,
int[] pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
int[] pt1,
int[] pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvLine(opencv_core.CvArr img,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws 4-connected, 8-connected or antialiased line segment connecting two points
|
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
float[] center,
double maxRadius) |
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
float[] center,
double maxRadius,
int flags) |
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
FloatBuffer center,
double maxRadius) |
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
FloatBuffer center,
double maxRadius,
int flags) |
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint2D32f center,
double maxRadius) |
static void |
opencv_imgproc.cvLinearPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint2D32f center,
double maxRadius,
int flags)
Performs forward or inverse linear-polar image transform
|
static void |
opencv_core.cvLog(opencv_core.CvArr src,
opencv_core.CvArr dst)
Calculates natural logarithms: dst(idx) = log(abs(src(idx))).
|
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
float[] center,
double M) |
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
float[] center,
double M,
int flags) |
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
FloatBuffer center,
double M) |
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
FloatBuffer center,
double M,
int flags) |
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint2D32f center,
double M) |
static void |
opencv_imgproc.cvLogPolar(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvPoint2D32f center,
double M,
int flags)
\brief Performs forward or inverse log-polar image transform
|
static void |
opencv_core.cvLUT(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr lut)
Does look-up transformation.
|
static double |
opencv_core.cvMahalanobis(opencv_core.CvArr vec1,
opencv_core.CvArr vec2,
opencv_core.CvArr mat)
Calculates Mahalanobis(weighted) distance
|
static double |
opencv_core.cvMahalonobis(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
opencv_core.CvArr arg3) |
static void |
opencv_imgproc.cvMatchTemplate(opencv_core.CvArr image,
opencv_core.CvArr templ,
opencv_core.CvArr result,
int method)
\brief Measures similarity between template and overlapped windows in the source image
and fills the resultant image with the measurements
|
static void |
opencv_core.cvMatMul(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvMatMulAdd(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr src3,
opencv_core.CvArr dst)
Matrix transform: dst = A*B + C, C is optional
|
static void |
opencv_core.cvMatMulAddEx(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
double arg3,
opencv_core.CvArr arg4,
double arg5,
opencv_core.CvArr arg6,
int arg7) |
static void |
opencv_core.cvMatMulAddS(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
opencv_core.CvMat arg3,
opencv_core.CvMat arg4) |
static void |
opencv_core.cvMax(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst)
dst(idx) = max(src1(idx),src2(idx))
|
static void |
opencv_core.cvMaxS(opencv_core.CvArr src,
double value,
opencv_core.CvArr dst)
dst(idx) = max(src(idx),value)
|
static int |
opencv_video.cvMeanShift(opencv_core.CvArr prob_image,
opencv_core.CvRect window,
opencv_core.CvTermCriteria criteria,
opencv_imgproc.CvConnectedComp comp) |
static void |
opencv_core.cvMerge(opencv_core.CvArr src0,
opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr src3,
opencv_core.CvArr dst)
Merges a set of single-channel arrays into the single multi-channel array
or inserts one particular [color] plane to the array
|
static void |
opencv_core.cvMin(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst)
dst(idx) = min(src1(idx),src2(idx))
|
static opencv_core.CvBox2D |
opencv_imgproc.cvMinAreaRect2(opencv_core.CvArr points) |
static opencv_core.CvBox2D |
opencv_imgproc.cvMinAreaRect2(opencv_core.CvArr points,
opencv_core.CvMemStorage storage)
\brief Finds minimum area rotated rectangle bounding a set of points
|
static int |
opencv_imgproc.cvMinEnclosingCircle(opencv_core.CvArr points,
float[] center,
float[] radius) |
static int |
opencv_imgproc.cvMinEnclosingCircle(opencv_core.CvArr points,
FloatBuffer center,
FloatBuffer radius) |
static int |
opencv_imgproc.cvMinEnclosingCircle(opencv_core.CvArr points,
opencv_core.CvPoint2D32f center,
org.bytedeco.javacpp.FloatPointer radius)
\brief Finds minimum enclosing circle for a set of points
|
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
double[] min_val,
double[] max_val) |
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
double[] min_val,
double[] max_val,
int[] min_loc,
int[] max_loc,
opencv_core.CvArr mask) |
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
DoubleBuffer min_val,
DoubleBuffer max_val) |
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
DoubleBuffer min_val,
DoubleBuffer max_val,
IntBuffer min_loc,
IntBuffer max_loc,
opencv_core.CvArr mask) |
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
org.bytedeco.javacpp.DoublePointer min_val,
org.bytedeco.javacpp.DoublePointer max_val) |
static void |
opencv_core.cvMinMaxLoc(opencv_core.CvArr arr,
org.bytedeco.javacpp.DoublePointer min_val,
org.bytedeco.javacpp.DoublePointer max_val,
opencv_core.CvPoint min_loc,
opencv_core.CvPoint max_loc,
opencv_core.CvArr mask)
Finds global minimum, maximum and their positions
|
static void |
opencv_core.cvMinS(opencv_core.CvArr src,
double value,
opencv_core.CvArr dst)
dst(idx) = min(src(idx),value)
|
static void |
opencv_core.cvMirror(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
int arg3) |
static void |
opencv_core.cvMixChannels(opencv_core.CvArr src,
int src_count,
opencv_core.CvArr dst,
int dst_count,
int[] from_to,
int pair_count) |
static void |
opencv_core.cvMixChannels(opencv_core.CvArr src,
int src_count,
opencv_core.CvArr dst,
int dst_count,
IntBuffer from_to,
int pair_count) |
static void |
opencv_core.cvMixChannels(opencv_core.CvArr src,
int src_count,
opencv_core.CvArr dst,
int dst_count,
org.bytedeco.javacpp.IntPointer from_to,
int pair_count) |
static void |
opencv_imgproc.cvMoments(opencv_core.CvArr arr,
opencv_imgproc.CvMoments moments) |
static void |
opencv_imgproc.cvMoments(opencv_core.CvArr arr,
opencv_imgproc.CvMoments moments,
int binary)
\brief Calculates all spatial and central moments up to the 3rd order
|
static void |
opencv_imgproc.cvMorphologyEx(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr temp,
opencv_core.IplConvKernel element,
int operation) |
static void |
opencv_imgproc.cvMorphologyEx(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr temp,
opencv_core.IplConvKernel element,
int operation,
int iterations)
\brief Performs complex morphological transformation
|
static void |
opencv_core.cvMul(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvMul(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
double scale)
dst(idx) = src1(idx) * src2(idx) * scale
(scaled element-wise multiplication of 2 arrays)
|
static void |
opencv_core.cvMulSpectrums(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
int flags)
Multiply results of DFTs: DFT(X)*DFT(Y) or DFT(X)*conj(DFT(Y))
|
static void |
opencv_imgproc.cvMultiplyAcc(opencv_core.CvArr image1,
opencv_core.CvArr image2,
opencv_core.CvArr acc) |
static void |
opencv_imgproc.cvMultiplyAcc(opencv_core.CvArr image1,
opencv_core.CvArr image2,
opencv_core.CvArr acc,
opencv_core.CvArr mask)
\brief Adds a product of two images to accumulator
|
static void |
opencv_core.cvMulTransposed(opencv_core.CvArr src,
opencv_core.CvArr dst,
int order) |
static void |
opencv_core.cvMulTransposed(opencv_core.CvArr src,
opencv_core.CvArr dst,
int order,
opencv_core.CvArr delta,
double scale)
Calculates (A-delta)*(A-delta)^T (order=0) or (A-delta)^T*(A-delta) (order=1)
|
static double |
opencv_core.cvNorm(opencv_core.CvArr arr1) |
static double |
opencv_core.cvNorm(opencv_core.CvArr arr1,
opencv_core.CvArr arr2,
int norm_type,
opencv_core.CvArr mask)
Finds norm, difference norm or relative difference norm for an array (or two arrays)
|
static void |
opencv_core.cvNormalize(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_core.cvNormalize(opencv_core.CvArr src,
opencv_core.CvArr dst,
double a,
double b,
int norm_type,
opencv_core.CvArr mask) |
static void |
opencv_core.cvNot(opencv_core.CvArr src,
opencv_core.CvArr dst)
dst(idx) = ~src(idx)
|
static void |
opencv_core.cvOr(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvOr(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src1(idx) | src2(idx)
|
static void |
opencv_core.cvOrS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvOrS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src(idx) | value
|
static void |
opencv_core.cvPerspectiveTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat mat)
Does perspective transform on every element of input array
|
static double |
opencv_imgproc.cvPointPolygonTest(opencv_core.CvArr contour,
float[] pt,
int measure_dist) |
static double |
opencv_imgproc.cvPointPolygonTest(opencv_core.CvArr contour,
FloatBuffer pt,
int measure_dist) |
static double |
opencv_imgproc.cvPointPolygonTest(opencv_core.CvArr contour,
opencv_core.CvPoint2D32f pt,
int measure_dist)
\brief Checks whether the point is inside polygon, outside, on an edge (at a vertex).
|
static opencv_core.CvSeq |
opencv_imgproc.cvPointSeqFromMat(int seq_kind,
opencv_core.CvArr mat,
opencv_core.CvContour contour_header,
opencv_core.CvSeqBlock block)
\brief Initializes sequence header for a matrix (column or row vector) of points
|
static void |
opencv_core.cvPolarToCart(opencv_core.CvArr magnitude,
opencv_core.CvArr angle,
opencv_core.CvArr x,
opencv_core.CvArr y) |
static void |
opencv_core.cvPolarToCart(opencv_core.CvArr magnitude,
opencv_core.CvArr angle,
opencv_core.CvArr x,
opencv_core.CvArr y,
int angle_in_degrees)
Does polar->cartesian coordinates conversion.
|
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
int[] pts,
int[] npts,
int contours,
int is_closed,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
int[] pts,
int[] npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
IntBuffer pts,
IntBuffer npts,
int contours,
int is_closed,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
IntBuffer pts,
IntBuffer npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
opencv_core.CvPoint pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
int is_closed,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
opencv_core.CvPoint pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
org.bytedeco.javacpp.PointerPointer pts,
org.bytedeco.javacpp.IntPointer npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws one or more polygonal curves
|
static void |
opencv_core.cvPow(opencv_core.CvArr src,
opencv_core.CvArr dst,
double power)
Does powering: dst(idx) = src(idx)^power
|
static void |
opencv_imgproc.cvPreCornerDetect(opencv_core.CvArr image,
opencv_core.CvArr corners) |
static void |
opencv_imgproc.cvPreCornerDetect(opencv_core.CvArr image,
opencv_core.CvArr corners,
int aperture_size)
\brief Calculates constraint image for corner detection
|
static void |
opencv_core.cvProjectPCA(opencv_core.CvArr data,
opencv_core.CvArr mean,
opencv_core.CvArr eigenvects,
opencv_core.CvArr result) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr1D(opencv_core.CvArr arr,
int idx0) |
static byte[] |
opencv_core.cvPtr1D(opencv_core.CvArr arr,
int idx0,
int[] type) |
static ByteBuffer |
opencv_core.cvPtr1D(opencv_core.CvArr arr,
int idx0,
IntBuffer type) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr1D(opencv_core.CvArr arr,
int idx0,
org.bytedeco.javacpp.IntPointer type)
\brief Return pointer to a particular array element.
|
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr2D(opencv_core.CvArr arr,
int idx0,
int idx1) |
static byte[] |
opencv_core.cvPtr2D(opencv_core.CvArr arr,
int idx0,
int idx1,
int[] type) |
static ByteBuffer |
opencv_core.cvPtr2D(opencv_core.CvArr arr,
int idx0,
int idx1,
IntBuffer type) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr2D(opencv_core.CvArr arr,
int idx0,
int idx1,
org.bytedeco.javacpp.IntPointer type)
\overload
|
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2) |
static byte[] |
opencv_core.cvPtr3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2,
int[] type) |
static ByteBuffer |
opencv_core.cvPtr3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2,
IntBuffer type) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtr3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2,
org.bytedeco.javacpp.IntPointer type)
\overload
|
static byte[] |
opencv_core.cvPtrND(opencv_core.CvArr arr,
int[] idx) |
static byte[] |
opencv_core.cvPtrND(opencv_core.CvArr arr,
int[] idx,
int[] type,
int create_node,
int[] precalc_hashval) |
static ByteBuffer |
opencv_core.cvPtrND(opencv_core.CvArr arr,
IntBuffer idx) |
static ByteBuffer |
opencv_core.cvPtrND(opencv_core.CvArr arr,
IntBuffer idx,
IntBuffer type,
int create_node,
IntBuffer precalc_hashval) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtrND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx) |
static org.bytedeco.javacpp.BytePointer |
opencv_core.cvPtrND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx,
org.bytedeco.javacpp.IntPointer type,
int create_node,
org.bytedeco.javacpp.IntPointer precalc_hashval)
\overload
|
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
int[] org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
IntBuffer org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
org.bytedeco.javacpp.BytePointer text,
opencv_core.CvPoint org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color)
\brief Renders text stroke with specified font and color at specified location.
|
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
String text,
int[] org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
String text,
IntBuffer org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPutText(opencv_core.CvArr img,
String text,
opencv_core.CvPoint org,
opencv_imgproc.CvFont font,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvPyrDown(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvPyrDown(opencv_core.CvArr src,
opencv_core.CvArr dst,
int filter)
\brief Smoothes the input image with gaussian kernel and then down-samples it.
|
static void |
opencv_imgproc.cvPyrMeanShiftFiltering(opencv_core.CvArr src,
opencv_core.CvArr dst,
double sp,
double sr) |
static void |
opencv_imgproc.cvPyrMeanShiftFiltering(opencv_core.CvArr src,
opencv_core.CvArr dst,
double sp,
double sr,
int max_level,
opencv_core.CvTermCriteria termcrit)
\brief Filters image using meanshift algorithm
|
static void |
opencv_imgproc.cvPyrUp(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvPyrUp(opencv_core.CvArr src,
opencv_core.CvArr dst,
int filter)
\brief Up-samples image and smoothes the result with gaussian kernel.
|
static void |
opencv_core.cvRandArr(long[] rng,
opencv_core.CvArr arr,
int dist_type,
opencv_core.CvScalar param1,
opencv_core.CvScalar param2) |
static void |
opencv_core.cvRandArr(LongBuffer rng,
opencv_core.CvArr arr,
int dist_type,
opencv_core.CvScalar param1,
opencv_core.CvScalar param2) |
static void |
opencv_core.cvRandArr(org.bytedeco.javacpp.LongPointer rng,
opencv_core.CvArr arr,
int dist_type,
opencv_core.CvScalar param1,
opencv_core.CvScalar param2)
\brief Fills an array with random numbers and updates the RNG state.
|
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
long[] rng) |
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
long[] rng,
double iter_factor) |
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
LongBuffer rng) |
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
LongBuffer rng,
double iter_factor) |
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
org.bytedeco.javacpp.LongPointer rng) |
static void |
opencv_core.cvRandShuffle(opencv_core.CvArr mat,
org.bytedeco.javacpp.LongPointer rng,
double iter_factor) |
static opencv_core.CvArr |
opencv_core.cvRange(opencv_core.CvArr mat,
double start,
double end)
Fills matrix with given range of numbers
|
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
int[] pt1,
int[] pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
int[] pt1,
int[] pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
IntBuffer pt1,
IntBuffer pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvRectangle(opencv_core.CvArr img,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws a rectangle given two opposite corners of the rectangle (pt1 & pt2)
|
static void |
opencv_imgproc.cvRectangleR(opencv_core.CvArr img,
opencv_core.CvRect r,
opencv_core.CvScalar color) |
static void |
opencv_imgproc.cvRectangleR(opencv_core.CvArr img,
opencv_core.CvRect r,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift)
\brief Draws a rectangle specified by a CvRect structure
|
static void |
opencv_core.cvReduce(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_core.cvReduce(opencv_core.CvArr src,
opencv_core.CvArr dst,
int dim,
int op) |
static void |
opencv_core.cvReleaseData(opencv_core.CvArr arr)
\brief Releases array data.
|
static void |
opencv_imgproc.cvRemap(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr mapx,
opencv_core.CvArr mapy) |
static void |
opencv_imgproc.cvRemap(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr mapx,
opencv_core.CvArr mapy,
int flags,
opencv_core.CvScalar fillval)
\brief Performs generic geometric transformation using the specified coordinate maps
|
static void |
opencv_core.cvRepeat(opencv_core.CvArr src,
opencv_core.CvArr dst)
Repeats source 2d array several times in both horizontal and
vertical direction to fill destination array
|
static void |
opencv_calib3d.cvReprojectImageTo3D(opencv_core.CvArr disparityImage,
opencv_core.CvArr _3dImage,
opencv_core.CvMat Q) |
static void |
opencv_calib3d.cvReprojectImageTo3D(opencv_core.CvArr disparityImage,
opencv_core.CvArr _3dImage,
opencv_core.CvMat Q,
int handleMissingValues) |
static opencv_core.CvMat |
opencv_core.cvReshape(opencv_core.CvArr arr,
opencv_core.CvMat header,
int new_cn) |
static opencv_core.CvMat |
opencv_core.cvReshape(opencv_core.CvArr arr,
opencv_core.CvMat header,
int new_cn,
int new_rows)
\brief Changes shape of matrix/image without copying data.
|
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
int[] new_sizes) |
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
IntBuffer new_sizes) |
static opencv_core.CvArr |
opencv_core.cvReshapeMatND(opencv_core.CvArr arr,
int sizeof_header,
opencv_core.CvArr header,
int new_cn,
int new_dims,
org.bytedeco.javacpp.IntPointer new_sizes)
\brief Changes the shape of a multi-dimensional array without copying the data.
|
static void |
opencv_imgproc.cvResize(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvResize(opencv_core.CvArr src,
opencv_core.CvArr dst,
int interpolation)
\brief Resizes image (input array is resized to fit the destination array)
|
static void |
opencv_imgproc.cvRunningAvg(opencv_core.CvArr image,
opencv_core.CvArr acc,
double alpha) |
static void |
opencv_imgproc.cvRunningAvg(opencv_core.CvArr image,
opencv_core.CvArr acc,
double alpha,
opencv_core.CvArr mask)
\brief Adds image to accumulator with weights: acc = acc*(1-alpha) + image*alpha
|
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
int[] pt1,
int[] pt2,
org.bytedeco.javacpp.Pointer buffer) |
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
int[] pt1,
int[] pt2,
org.bytedeco.javacpp.Pointer buffer,
int connectivity) |
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
IntBuffer pt1,
IntBuffer pt2,
org.bytedeco.javacpp.Pointer buffer) |
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
IntBuffer pt1,
IntBuffer pt2,
org.bytedeco.javacpp.Pointer buffer,
int connectivity) |
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
org.bytedeco.javacpp.Pointer buffer) |
static int |
opencv_imgproc.cvSampleLine(opencv_core.CvArr image,
opencv_core.CvPoint pt1,
opencv_core.CvPoint pt2,
org.bytedeco.javacpp.Pointer buffer,
int connectivity)
\brief Fetches pixels that belong to the specified line segment and stores them to the buffer.
|
static int |
opencv_imgcodecs.cvSaveImage(org.bytedeco.javacpp.BytePointer filename,
opencv_core.CvArr image) |
static int |
opencv_imgcodecs.cvSaveImage(org.bytedeco.javacpp.BytePointer filename,
opencv_core.CvArr image,
int[] params) |
static int |
opencv_imgcodecs.cvSaveImage(org.bytedeco.javacpp.BytePointer filename,
opencv_core.CvArr image,
IntBuffer params) |
static int |
opencv_imgcodecs.cvSaveImage(org.bytedeco.javacpp.BytePointer filename,
opencv_core.CvArr image,
org.bytedeco.javacpp.IntPointer params) |
static int |
opencv_imgcodecs.cvSaveImage(String filename,
opencv_core.CvArr image) |
static int |
opencv_imgcodecs.cvSaveImage(String filename,
opencv_core.CvArr image,
int[] params) |
static int |
opencv_imgcodecs.cvSaveImage(String filename,
opencv_core.CvArr image,
IntBuffer params) |
static int |
opencv_imgcodecs.cvSaveImage(String filename,
opencv_core.CvArr image,
org.bytedeco.javacpp.IntPointer params) |
static void |
opencv_core.cvScale(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
double arg3,
double arg4) |
static void |
opencv_core.cvScaleAdd(opencv_core.CvArr src1,
opencv_core.CvScalar scale,
opencv_core.CvArr src2,
opencv_core.CvArr dst)
dst = src1 * scale + src2
|
static void |
opencv_core.cvSeqInsertSlice(opencv_core.CvSeq seq,
int before_index,
opencv_core.CvArr from_arr)
Inserts a sequence or array into another sequence
|
static void |
opencv_core.cvSet(opencv_core.CvArr arr,
opencv_core.CvScalar value) |
static void |
opencv_core.cvSet(opencv_core.CvArr arr,
opencv_core.CvScalar value,
opencv_core.CvArr mask)
\brief Sets every element of an array to a given value.
|
static void |
opencv_core.cvSet1D(opencv_core.CvArr arr,
int idx0,
opencv_core.CvScalar value)
\brief Change the particular array element.
|
static void |
opencv_core.cvSet2D(opencv_core.CvArr arr,
int idx0,
int idx1,
opencv_core.CvScalar value)
\overload
|
static void |
opencv_core.cvSet3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2,
opencv_core.CvScalar value)
\overload
|
static void |
opencv_core.cvSetData(opencv_core.CvArr arr,
org.bytedeco.javacpp.Pointer data,
int step)
\brief Assigns user data to the array header.
|
static void |
opencv_core.cvSetIdentity(opencv_core.CvArr mat) |
static void |
opencv_core.cvSetIdentity(opencv_core.CvArr mat,
opencv_core.CvScalar value)
Makes an identity matrix (mat_ij = i == j)
|
static void |
opencv_objdetect.cvSetImagesForHaarClassifierCascade(opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvArr sum,
opencv_core.CvArr sqsum,
opencv_core.CvArr tilted_sum,
double scale) |
static void |
opencv_core.cvSetND(opencv_core.CvArr arr,
int[] idx,
opencv_core.CvScalar value) |
static void |
opencv_core.cvSetND(opencv_core.CvArr arr,
IntBuffer idx,
opencv_core.CvScalar value) |
static void |
opencv_core.cvSetND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx,
opencv_core.CvScalar value)
\overload
|
static void |
opencv_core.cvSetReal1D(opencv_core.CvArr arr,
int idx0,
double value)
\brief Change a specific array element.
|
static void |
opencv_core.cvSetReal2D(opencv_core.CvArr arr,
int idx0,
int idx1,
double value)
\overload
|
static void |
opencv_core.cvSetReal3D(opencv_core.CvArr arr,
int idx0,
int idx1,
int idx2,
double value)
\overload
|
static void |
opencv_core.cvSetRealND(opencv_core.CvArr arr,
int[] idx,
double value) |
static void |
opencv_core.cvSetRealND(opencv_core.CvArr arr,
IntBuffer idx,
double value) |
static void |
opencv_core.cvSetRealND(opencv_core.CvArr arr,
org.bytedeco.javacpp.IntPointer idx,
double value)
\overload
|
static void |
opencv_core.cvSetZero(opencv_core.CvArr arr)
\brief Clears the array.
|
static void |
opencv_highgui.cvShowImage(org.bytedeco.javacpp.BytePointer name,
opencv_core.CvArr image) |
static void |
opencv_highgui.cvShowImage(String name,
opencv_core.CvArr image) |
static void |
opencv_imgproc.cvSmooth(opencv_core.CvArr src,
opencv_core.CvArr dst) |
static void |
opencv_imgproc.cvSmooth(opencv_core.CvArr src,
opencv_core.CvArr dst,
int smoothtype,
int size1,
int size2,
double sigma1,
double sigma2)
\brief Smooths the image in one of several ways.
|
static void |
opencv_imgproc.cvSobel(opencv_core.CvArr src,
opencv_core.CvArr dst,
int xorder,
int yorder) |
static void |
opencv_imgproc.cvSobel(opencv_core.CvArr src,
opencv_core.CvArr dst,
int xorder,
int yorder,
int aperture_size)
\brief Calculates an image derivative using generalized Sobel
|
static int |
opencv_core.cvSolve(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static int |
opencv_core.cvSolve(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
int method)
Solves linear system (src1)*(dst) = (src2)
(returns 0 if src1 is a singular and CV_LU method is used)
|
static void |
opencv_core.cvSort(opencv_core.CvArr src) |
static void |
opencv_core.cvSort(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvArr idxmat,
int flags) |
static void |
opencv_core.cvSplit(opencv_core.CvArr src,
opencv_core.CvArr dst0,
opencv_core.CvArr dst1,
opencv_core.CvArr dst2,
opencv_core.CvArr dst3)
Splits a multi-channel array into the set of single-channel arrays or
extracts particular [color] plane
|
static void |
opencv_imgproc.cvSquareAcc(opencv_core.CvArr image,
opencv_core.CvArr sqsum) |
static void |
opencv_imgproc.cvSquareAcc(opencv_core.CvArr image,
opencv_core.CvArr sqsum,
opencv_core.CvArr mask)
\brief Adds squared image to accumulator
|
static opencv_imgproc.CvContourScanner |
opencv_imgproc.cvStartFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage) |
static opencv_imgproc.CvContourScanner |
opencv_imgproc.cvStartFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
int header_size,
int mode,
int method,
int[] offset) |
static opencv_imgproc.CvContourScanner |
opencv_imgproc.cvStartFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
int header_size,
int mode,
int method,
IntBuffer offset) |
static opencv_imgproc.CvContourScanner |
opencv_imgproc.cvStartFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
int header_size,
int mode,
int method,
opencv_core.CvPoint offset)
\brief Initializes contour retrieving process.
|
static void |
opencv_core.cvSub(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvSub(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(mask) = src1(mask) - src2(mask)
|
static void |
opencv_core.cvSubRS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvSubRS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(mask) = value - src(mask)
|
static void |
opencv_core.cvSubS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvSubS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(mask) = src(mask) - value = src(mask) + (-value)
|
static opencv_core.CvScalar |
opencv_core.cvSum(opencv_core.CvArr arr)
Finds sum of array elements
|
static void |
opencv_core.cvSVBkSb(opencv_core.CvArr W,
opencv_core.CvArr U,
opencv_core.CvArr V,
opencv_core.CvArr B,
opencv_core.CvArr X,
int flags)
Performs Singular Value Back Substitution (solves A*X = B):
flags must be the same as in cvSVD
|
static void |
opencv_core.cvSVD(opencv_core.CvArr A,
opencv_core.CvArr W) |
static void |
opencv_core.cvSVD(opencv_core.CvArr A,
opencv_core.CvArr W,
opencv_core.CvArr U,
opencv_core.CvArr V,
int flags)
Performs Singular Value Decomposition of a matrix
|
static void |
opencv_core.cvT(opencv_core.CvArr arg1,
opencv_core.CvArr arg2) |
static double |
opencv_imgproc.cvThreshold(opencv_core.CvArr src,
opencv_core.CvArr dst,
double threshold,
double max_value,
int threshold_type)
\brief Applies fixed-level threshold to grayscale image.
|
static opencv_core.CvScalar |
opencv_core.cvTrace(opencv_core.CvArr mat)
Calculates trace of the matrix (sum of elements on the main diagonal)
|
static void |
opencv_core.cvTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat transmat) |
static void |
opencv_core.cvTransform(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat transmat,
opencv_core.CvMat shiftvec)
Transforms each element of source array and stores
resultant vectors in destination array
|
static void |
opencv_core.cvTranspose(opencv_core.CvArr src,
opencv_core.CvArr dst)
Tranposes matrix.
|
static void |
opencv_imgproc.cvUndistort2(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat camera_matrix,
opencv_core.CvMat distortion_coeffs) |
static void |
opencv_imgproc.cvUndistort2(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat camera_matrix,
opencv_core.CvMat distortion_coeffs,
opencv_core.CvMat new_camera_matrix)
\brief Transforms the input image to compensate lens distortion
|
static void |
opencv_calib3d.cvValidateDisparity(opencv_core.CvArr disparity,
opencv_core.CvArr cost,
int minDisparity,
int numberOfDisparities) |
static void |
opencv_calib3d.cvValidateDisparity(opencv_core.CvArr disparity,
opencv_core.CvArr cost,
int minDisparity,
int numberOfDisparities,
int disp12MaxDiff) |
static void |
opencv_imgcodecs.cvvConvertImage(opencv_core.CvArr arg1,
opencv_core.CvArr arg2,
int arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(org.bytedeco.javacpp.BytePointer arg1,
opencv_core.CvArr arg2,
int[] arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(org.bytedeco.javacpp.BytePointer arg1,
opencv_core.CvArr arg2,
IntBuffer arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(org.bytedeco.javacpp.BytePointer arg1,
opencv_core.CvArr arg2,
org.bytedeco.javacpp.IntPointer arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(String arg1,
opencv_core.CvArr arg2,
int[] arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(String arg1,
opencv_core.CvArr arg2,
IntBuffer arg3) |
static int |
opencv_imgcodecs.cvvSaveImage(String arg1,
opencv_core.CvArr arg2,
org.bytedeco.javacpp.IntPointer arg3) |
static void |
opencv_highgui.cvvShowImage(org.bytedeco.javacpp.BytePointer arg1,
opencv_core.CvArr arg2) |
static void |
opencv_highgui.cvvShowImage(String arg1,
opencv_core.CvArr arg2) |
static void |
opencv_imgproc.cvWarpAffine(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat map_matrix) |
static void |
opencv_imgproc.cvWarpAffine(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat map_matrix,
int flags,
opencv_core.CvScalar fillval)
\brief Warps image with affine transform
\note ::cvGetQuadrangleSubPix is similar to ::cvWarpAffine, but the outliers are extrapolated using
replication border mode.
|
static void |
opencv_imgproc.cvWarpPerspective(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat map_matrix) |
static void |
opencv_imgproc.cvWarpPerspective(opencv_core.CvArr src,
opencv_core.CvArr dst,
opencv_core.CvMat map_matrix,
int flags,
opencv_core.CvScalar fillval)
\brief Warps image with perspective (projective) transform
|
static void |
opencv_imgproc.cvWatershed(opencv_core.CvArr image,
opencv_core.CvArr markers)
\brief Segments image using seed "markers"
|
static void |
opencv_core.cvXor(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst) |
static void |
opencv_core.cvXor(opencv_core.CvArr src1,
opencv_core.CvArr src2,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src1(idx) ^ src2(idx)
|
static void |
opencv_core.cvXorS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst) |
static void |
opencv_core.cvXorS(opencv_core.CvArr src,
opencv_core.CvScalar value,
opencv_core.CvArr dst,
opencv_core.CvArr mask)
dst(idx) = src(idx) ^ value
|
static void |
opencv_core.cvZero(opencv_core.CvArr arg1) |
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.GpuMat coiimg) |
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.GpuMat coiimg,
int coi) |
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.Mat coiimg) |
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.Mat coiimg,
int coi)
extracts Channel of Interest from CvMat or IplImage and makes cv::Mat out of it.
|
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.UMat coiimg) |
static void |
opencv_core.extractImageCOI(opencv_core.CvArr arr,
opencv_core.UMat coiimg,
int coi) |
static void |
opencv_core.insertImageCOI(opencv_core.GpuMat coiimg,
opencv_core.CvArr arr) |
static void |
opencv_core.insertImageCOI(opencv_core.GpuMat coiimg,
opencv_core.CvArr arr,
int coi) |
static void |
opencv_core.insertImageCOI(opencv_core.Mat coiimg,
opencv_core.CvArr arr) |
static void |
opencv_core.insertImageCOI(opencv_core.Mat coiimg,
opencv_core.CvArr arr,
int coi)
inserts single-channel cv::Mat into a multi-channel CvMat or IplImage
|
static void |
opencv_core.insertImageCOI(opencv_core.UMat coiimg,
opencv_core.CvArr arr) |
static void |
opencv_core.insertImageCOI(opencv_core.UMat coiimg,
opencv_core.CvArr arr,
int coi) |
static void |
opencv_core.seqInsertSlice(opencv_core.CvSeq seq,
int before_index,
opencv_core.CvArr from_arr) |
| Constructor and Description |
|---|
Mat(opencv_core.CvArr arr) |
| Modifier and Type | Class and Description |
|---|---|
static class |
opencv_core.AbstractCvGraph |
static class |
opencv_core.AbstractCvMat |
protected static class |
opencv_core.AbstractCvMat.ReleaseDeallocator |
static class |
opencv_core.AbstractCvMatND |
protected static class |
opencv_core.AbstractCvMatND.ReleaseDeallocator |
static class |
opencv_core.AbstractCvSeq |
static class |
opencv_core.AbstractCvSet |
static class |
opencv_core.AbstractCvSparseMat |
protected static class |
opencv_core.AbstractCvSparseMat.ReleaseDeallocator |
static class |
opencv_core.AbstractIplImage |
protected static class |
opencv_core.AbstractIplImage.HeaderReleaseDeallocator |
protected static class |
opencv_core.AbstractIplImage.ReleaseDeallocator |
| Modifier and Type | Method and Description |
|---|---|
opencv_core.CvArr |
opencv_core.CvArrArray.get() |
| Modifier and Type | Method and Description |
|---|---|
static void |
opencv_imgproc.cvCalcArrBackProject(opencv_core.CvArr[] image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcArrBackProject(opencv_core.CvArr[] image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcArrBackProjectPatch(opencv_core.CvArr[] image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_imgproc.cvCalcArrBackProjectPatch(opencv_core.CvArr[] image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_imgproc.cvCalcArrHist(opencv_core.CvArr[] arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvCalcArrHist(opencv_core.CvArr[] arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvCalcBackProject(opencv_core.IplImage[] image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcBackProject(opencv_core.IplImageArray image,
opencv_core.CvArr dst,
opencv_core.CvHistogram hist) |
static void |
opencv_imgproc.cvCalcBackProjectPatch(opencv_core.IplImage[] image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_imgproc.cvCalcBackProjectPatch(opencv_core.IplImageArray image,
opencv_core.CvArr dst,
opencv_core.CvSize range,
opencv_core.CvHistogram hist,
int method,
double factor) |
static void |
opencv_core.cvCalcCovarMatrix(opencv_core.CvArr[] vects,
int count,
opencv_core.CvArr cov_mat,
opencv_core.CvArr avg,
int flags) |
static void |
opencv_core.cvCalcCovarMatrix(opencv_core.CvArr[] vects,
int count,
opencv_core.CvArr cov_mat,
opencv_core.CvArr avg,
int flags) |
static void |
opencv_imgproc.cvCalcHist(opencv_core.IplImage[] arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvCalcHist(opencv_core.IplImageArray arr,
opencv_core.CvHistogram hist,
int accumulate,
opencv_core.CvArr mask) |
static void |
opencv_imgproc.cvDrawContours(opencv_core.CvArr img,
opencv_core.CvSeq contour,
opencv_core.CvScalar external_color,
opencv_core.CvScalar hole_color,
int max_level,
int thickness,
int line_type) |
static void |
opencv_imgproc.cvDrawPolyLine(opencv_core.CvArr img,
opencv_core.CvPoint[] pts,
int[] npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static void |
opencv_imgproc.cvFillPoly(opencv_core.CvArr img,
opencv_core.CvPoint[] pts,
int[] npts,
int contours,
opencv_core.CvScalar color,
int line_type,
int shift) |
static int |
opencv_imgproc.cvFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
opencv_core.CvSeq first_contour,
int header_size,
int mode,
int method) |
static opencv_core.CvSeq |
opencv_objdetect.cvHaarDetectObjects(opencv_core.CvArr image,
opencv_objdetect.CvHaarClassifierCascade cascade,
opencv_core.CvMemStorage storage,
double scale_factor,
int min_neighbors,
int flags) |
static int |
opencv_core.cvInitNArrayIterator(int count,
opencv_core.CvArr[] arrs,
opencv_core.CvArr mask,
opencv_core.CvMatND stubs,
opencv_core.CvNArrayIterator array_iterator,
int flags) |
static int |
opencv_core.cvInitNArrayIterator(int count,
opencv_core.CvArr[] arrs,
opencv_core.CvArr mask,
opencv_core.CvMatND stubs,
opencv_core.CvNArrayIterator array_iterator,
int flags) |
static void |
opencv_core.cvMixChannels(opencv_core.CvArr[] src,
int src_count,
opencv_core.CvArr[] dst,
int dst_count,
int[] from_to,
int pair_count) |
static void |
opencv_core.cvMixChannels(opencv_core.CvArr[] src,
int src_count,
opencv_core.CvArr[] dst,
int dst_count,
int[] from_to,
int pair_count) |
static double |
opencv_core.cvNorm(opencv_core.CvArr arr1,
opencv_core.CvArr arr2) |
static void |
opencv_imgproc.cvPolyLine(opencv_core.CvArr img,
opencv_core.CvPoint[] pts,
int[] npts,
int contours,
int is_closed,
opencv_core.CvScalar color,
int thickness,
int line_type,
int shift) |
static opencv_imgproc.CvContourScanner |
opencv_imgproc.cvStartFindContours(opencv_core.CvArr image,
opencv_core.CvMemStorage storage,
int header_size,
int mode,
int method) |
opencv_core.CvArrArray |
opencv_core.CvArrArray.put(opencv_core.CvArr... array) |
opencv_core.CvMatArray |
opencv_core.CvMatArray.put(opencv_core.CvArr... array) |
opencv_core.CvMatNDArray |
opencv_core.CvMatNDArray.put(opencv_core.CvArr... array) |
opencv_core.IplImageArray |
opencv_core.IplImageArray.put(opencv_core.CvArr... array) |
opencv_core.CvArrArray |
opencv_core.CvArrArray.put(opencv_core.CvArr p) |
opencv_core.CvMatArray |
opencv_core.CvMatArray.put(opencv_core.CvArr p) |
opencv_core.CvMatNDArray |
opencv_core.CvMatNDArray.put(opencv_core.CvArr p) |
opencv_core.IplImageArray |
opencv_core.IplImageArray.put(opencv_core.CvArr p) |
| Constructor and Description |
|---|
CvArrArray(opencv_core.CvArr... array) |
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