Uses of Class org.bytedeco.javacpp.opencv_core.RectVector (JavaCPP Presets for OpenCV 3.2.0-1.3 API)

Packages that use opencv_core.RectVector
Package Description

org.bytedeco.javacpp

Packages that use opencv_core.RectVector
Package	Description
org.bytedeco.javacpp

Uses of opencv_core.RectVector in org.bytedeco.javacpp

Methods in org.bytedeco.javacpp that return opencv_core.RectVector
Modifier and Type	Method and Description
`opencv_core.RectVector`	opencv_core.RectVectorVector.`get(long i)`
`opencv_core.RectVector`	opencv_core.RectVector.`put(long i, opencv_core.Rect value)`
`opencv_core.RectVector`	opencv_core.RectVector.`put(opencv_core.Rect... array)`
`opencv_core.RectVector`	opencv_core.RectVector.`put(opencv_core.RectVector x)`

Methods in org.bytedeco.javacpp with parameters of type opencv_core.RectVector
Modifier and Type	Method and Description
`void`	opencv_stitching.FeaturesFinder.`apply(opencv_core.Mat image, opencv_stitching.ImageFeatures features, opencv_core.RectVector rois)` \brief Finds features in the given image.
`void`	opencv_stitching.FeaturesFinder.`apply(opencv_core.UMat image, opencv_stitching.ImageFeatures features, opencv_core.RectVector rois)`
`void`	opencv_objdetect.DetectionBasedTracker.IDetector.`detect(opencv_core.Mat image, opencv_core.RectVector objects)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations, DoubleBuffer foundWeights)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations, DoubleBuffer foundWeights, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)` \brief Detects objects of different sizes in the input image.
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)` without found weights output
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations, DoublePointer foundWeights)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.Mat img, opencv_core.RectVector foundLocations, DoublePointer foundWeights, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)` with result weights output
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer rejectLevels, DoubleBuffer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations, double[] foundWeights)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations, double[] foundWeights, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations, DoublePointer foundWeights)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScale(opencv_core.UMat img, opencv_core.RectVector foundLocations, DoublePointer foundWeights, double hitThreshold, opencv_core.Size winStride, opencv_core.Size padding, double scale, double finalThreshold, boolean useMeanshiftGrouping)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, int[] rejectLevels, double[] levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, int[] numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.BaseCascadeClassifier.`detectMultiScale(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer numDetections)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer numDetections)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)` \overload
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.UMat image, opencv_core.RectVector objects, int[] numDetections)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.UMat image, opencv_core.RectVector objects, int[] numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer numDetections)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale2(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer numDetections, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer rejectLevels, DoubleBuffer levelWeights)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.Mat image, opencv_core.RectVector objects, IntBuffer rejectLevels, DoubleBuffer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.Mat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)` \overload if `outputRejectLevels` is `true` returns `rejectLevels` and `levelWeights`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.UMat image, opencv_core.RectVector objects, int[] rejectLevels, double[] levelWeights)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.UMat image, opencv_core.RectVector objects, int[] rejectLevels, double[] levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights)`
`void`	opencv_objdetect.CascadeClassifier.`detectMultiScale3(opencv_core.UMat image, opencv_core.RectVector objects, IntPointer rejectLevels, DoublePointer levelWeights, double scaleFactor, int minNeighbors, int flags, opencv_core.Size minSize, opencv_core.Size maxSize, boolean outputRejectLevels)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScaleROI(opencv_core.Mat img, opencv_core.RectVector foundLocations, opencv_objdetect.DetectionROI locations)`
`void`	opencv_objdetect.HOGDescriptor.`detectMultiScaleROI(opencv_core.Mat img, opencv_core.RectVector foundLocations, opencv_objdetect.DetectionROI locations, double hitThreshold, int groupThreshold)` evaluate specified ROI and return confidence value for each location in multiple scales
`void`	opencv_features2d.MSER.`detectRegions(opencv_core.Mat image, opencv_core.PointVectorVector msers, opencv_core.RectVector bboxes)` \brief Detect %MSER regions
`void`	opencv_features2d.MSER.`detectRegions(opencv_core.UMat image, opencv_core.PointVectorVector msers, opencv_core.RectVector bboxes)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat image, opencv_core.Mat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat image, opencv_core.Mat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects, int method, BytePointer filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat image, opencv_core.Mat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects, int method, String filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat img, opencv_core.MatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat img, opencv_core.MatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects, int method, BytePointer filename, float minProbablity)` \brief Find groups of Extremal Regions that are organized as text blocks.
`static void`	opencv_text.`erGrouping(opencv_core.Mat img, opencv_core.UMatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.Mat img, opencv_core.UMatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects, int method, String filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat img, opencv_core.MatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat img, opencv_core.MatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects, int method, BytePointer filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat image, opencv_core.UMat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat image, opencv_core.UMat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects, int method, BytePointer filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat image, opencv_core.UMat channel, opencv_core.PointVectorVector regions, opencv_core.RectVector groups_rects, int method, String filename, float minProbablity)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat img, opencv_core.UMatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects)`
`static void`	opencv_text.`erGrouping(opencv_core.UMat img, opencv_core.UMatVector channels, opencv_text.ERStatVectorVector regions, opencv_core.PointVectorVector groups, opencv_core.RectVector groups_rects, int method, String filename, float minProbablity)`
`void`	opencv_objdetect.DetectionBasedTracker.`getObjects(opencv_core.RectVector result)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, double[] foundWeights, double[] foundScales)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, double[] foundWeights, double[] foundScales, double detectThreshold, opencv_core.Size winDetSize)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, DoubleBuffer foundWeights, DoubleBuffer foundScales)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, DoubleBuffer foundWeights, DoubleBuffer foundScales, double detectThreshold, opencv_core.Size winDetSize)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, DoublePointer foundWeights, DoublePointer foundScales)`
`static void`	opencv_objdetect.`groupRectangles_meanshift(opencv_core.RectVector rectList, DoublePointer foundWeights, DoublePointer foundScales, double detectThreshold, opencv_core.Size winDetSize)` \overload
`void`	opencv_objdetect.HOGDescriptor.`groupRectangles(opencv_core.RectVector rectList, double[] weights, int groupThreshold, double eps)`
`void`	opencv_objdetect.HOGDescriptor.`groupRectangles(opencv_core.RectVector rectList, DoubleBuffer weights, int groupThreshold, double eps)`
`void`	opencv_objdetect.HOGDescriptor.`groupRectangles(opencv_core.RectVector rectList, DoublePointer weights, int groupThreshold, double eps)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int[] rejectLevels, double[] levelWeights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int[] rejectLevels, double[] levelWeights, int groupThreshold, double eps)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int[] weights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int[] weights, int groupThreshold, double eps)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntBuffer rejectLevels, DoubleBuffer levelWeights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntBuffer rejectLevels, DoubleBuffer levelWeights, int groupThreshold, double eps)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntBuffer weights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntBuffer weights, int groupThreshold, double eps)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int groupThreshold, double eps)` \brief Groups the object candidate rectangles.
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int groupThreshold, double eps, int[] weights, double[] levelWeights)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int groupThreshold, double eps, IntBuffer weights, DoubleBuffer levelWeights)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, int groupThreshold, double eps, IntPointer weights, DoublePointer levelWeights)` \overload
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntPointer rejectLevels, DoublePointer levelWeights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntPointer rejectLevels, DoublePointer levelWeights, int groupThreshold, double eps)` \overload
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntPointer weights, int groupThreshold)`
`static void`	opencv_objdetect.`groupRectangles(opencv_core.RectVector rectList, IntPointer weights, int groupThreshold, double eps)` \overload
`void`	opencv_ximgproc.SelectiveSearchSegmentation.`process(opencv_core.RectVector rects)` \brief Based on all images, graph segmentations and stragies, computes all possible rects and return them
`opencv_core.RectVectorVector`	opencv_core.RectVectorVector.`put(long i, opencv_core.RectVector value)`
`opencv_core.RectVectorVector`	opencv_core.RectVectorVector.`put(opencv_core.RectVector... array)`
`opencv_core.RectVector`	opencv_core.RectVector.`put(opencv_core.RectVector x)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)` \brief Recognize text using the tesseract-ocr API.
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)` \brief Recognize text using HMM.
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)` \brief Recognize text using Beam Search.
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)` \brief Recognize text using HMM.
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, BytePointer output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, opencv_core.Mat mask, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, float[] component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatBuffer component_confidences, int component_level)`
`void`	opencv_text.BaseOCR.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRTesseract.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRHMMDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`void`	opencv_text.OCRBeamSearchDecoder.`run(opencv_core.Mat image, String output_text, opencv_core.RectVector component_rects, opencv_text.StdStringVector component_texts, FloatPointer component_confidences, int component_level)`
`static void`	opencv_optflow.`segmentMotion(opencv_core.Mat mhi, opencv_core.Mat segmask, opencv_core.RectVector boundingRects, double timestamp, double segThresh)` \brief Splits a motion history image into a few parts corresponding to separate independent motions (for example, left hand, right hand).
`static void`	opencv_optflow.`segmentMotion(opencv_core.UMat mhi, opencv_core.UMat segmask, opencv_core.RectVector boundingRects, double timestamp, double segThresh)`

Constructors in org.bytedeco.javacpp with parameters of type opencv_core.RectVector
Constructor and Description
`RectVectorVector(opencv_core.RectVector... array)`

Uses of Classorg.bytedeco.javacpp.opencv_core.RectVector

Uses of opencv_core.RectVector in org.bytedeco.javacpp

Uses of Class
org.bytedeco.javacpp.opencv_core.RectVector