Package org.opencv.imgproc

Class LineSegmentDetector

java.lang.Object
org.opencv.core.Algorithm
org.opencv.imgproc.LineSegmentDetector
public class LineSegmentDetector
extends Algorithm
Line segment detector class following the algorithm described at CITE: Rafael12 . Note: Implementation has been removed due original code license conflict

  • Constructor Details

  • Method Details

    • __fromPtr__

      public static LineSegmentDetector __fromPtr__​(long addr)

    • detect

      public void detect​(Mat _image, Mat _lines, Mat width, Mat prec, Mat nfa)
      Finds lines in the input image. This is the output of the default parameters of the algorithm on the above shown image. ![image](pics/building_lsd.png)
      Parameters:
      _image - A grayscale (CV_8UC1) input image. If only a roi needs to be selected, use: lsd_ptr->detect(image(roi), lines, ...); lines += Scalar(roi.x, roi.y, roi.x, roi.y);
      _lines - A vector of Vec4i or Vec4f elements specifying the beginning and ending point of a line. Where Vec4i/Vec4f is (x1, y1, x2, y2), point 1 is the start, point 2 - end. Returned lines are strictly oriented depending on the gradient.
      width - Vector of widths of the regions, where the lines are found. E.g. Width of line.
      prec - Vector of precisions with which the lines are found.
      nfa - Vector containing number of false alarms in the line region, with precision of 10%. The bigger the value, logarithmically better the detection.
      • -1 corresponds to 10 mean false alarms
      • 0 corresponds to 1 mean false alarm
      • 1 corresponds to 0.1 mean false alarms This vector will be calculated only when the objects type is #LSD_REFINE_ADV.

    • detect

      public void detect​(Mat _image, Mat _lines, Mat width, Mat prec)
      Finds lines in the input image. This is the output of the default parameters of the algorithm on the above shown image. ![image](pics/building_lsd.png)
      Parameters:
      _image - A grayscale (CV_8UC1) input image. If only a roi needs to be selected, use: lsd_ptr->detect(image(roi), lines, ...); lines += Scalar(roi.x, roi.y, roi.x, roi.y);
      _lines - A vector of Vec4i or Vec4f elements specifying the beginning and ending point of a line. Where Vec4i/Vec4f is (x1, y1, x2, y2), point 1 is the start, point 2 - end. Returned lines are strictly oriented depending on the gradient.
      width - Vector of widths of the regions, where the lines are found. E.g. Width of line.
      prec - Vector of precisions with which the lines are found. bigger the value, logarithmically better the detection.
      • -1 corresponds to 10 mean false alarms
      • 0 corresponds to 1 mean false alarm
      • 1 corresponds to 0.1 mean false alarms This vector will be calculated only when the objects type is #LSD_REFINE_ADV.

    • detect

      public void detect​(Mat _image, Mat _lines, Mat width)
      Finds lines in the input image. This is the output of the default parameters of the algorithm on the above shown image. ![image](pics/building_lsd.png)
      Parameters:
      _image - A grayscale (CV_8UC1) input image. If only a roi needs to be selected, use: lsd_ptr->detect(image(roi), lines, ...); lines += Scalar(roi.x, roi.y, roi.x, roi.y);
      _lines - A vector of Vec4i or Vec4f elements specifying the beginning and ending point of a line. Where Vec4i/Vec4f is (x1, y1, x2, y2), point 1 is the start, point 2 - end. Returned lines are strictly oriented depending on the gradient.
      width - Vector of widths of the regions, where the lines are found. E.g. Width of line. bigger the value, logarithmically better the detection.
      • -1 corresponds to 10 mean false alarms
      • 0 corresponds to 1 mean false alarm
      • 1 corresponds to 0.1 mean false alarms This vector will be calculated only when the objects type is #LSD_REFINE_ADV.

    • detect

      public void detect​(Mat _image, Mat _lines)
      Finds lines in the input image. This is the output of the default parameters of the algorithm on the above shown image. ![image](pics/building_lsd.png)
      Parameters:
      _image - A grayscale (CV_8UC1) input image. If only a roi needs to be selected, use: lsd_ptr->detect(image(roi), lines, ...); lines += Scalar(roi.x, roi.y, roi.x, roi.y);
      _lines - A vector of Vec4i or Vec4f elements specifying the beginning and ending point of a line. Where Vec4i/Vec4f is (x1, y1, x2, y2), point 1 is the start, point 2 - end. Returned lines are strictly oriented depending on the gradient. bigger the value, logarithmically better the detection.
      • -1 corresponds to 10 mean false alarms
      • 0 corresponds to 1 mean false alarm
      • 1 corresponds to 0.1 mean false alarms This vector will be calculated only when the objects type is #LSD_REFINE_ADV.

    • drawSegments

      public void drawSegments​(Mat _image, Mat lines)
      Draws the line segments on a given image.
      Parameters:
      _image - The image, where the lines will be drawn. Should be bigger or equal to the image, where the lines were found.
      lines - A vector of the lines that needed to be drawn.

    • compareSegments

      public int compareSegments​(Size size, Mat lines1, Mat lines2, Mat _image)
      Draws two groups of lines in blue and red, counting the non overlapping (mismatching) pixels.
      Parameters:
      size - The size of the image, where lines1 and lines2 were found.
      lines1 - The first group of lines that needs to be drawn. It is visualized in blue color.
      lines2 - The second group of lines. They visualized in red color.
      _image - Optional image, where the lines will be drawn. The image should be color(3-channel) in order for lines1 and lines2 to be drawn in the above mentioned colors.
      Returns:
      automatically generated

    • compareSegments

      public int compareSegments​(Size size, Mat lines1, Mat lines2)
      Draws two groups of lines in blue and red, counting the non overlapping (mismatching) pixels.
      Parameters:
      size - The size of the image, where lines1 and lines2 were found.
      lines1 - The first group of lines that needs to be drawn. It is visualized in blue color.
      lines2 - The second group of lines. They visualized in red color. in order for lines1 and lines2 to be drawn in the above mentioned colors.
      Returns:
      automatically generated

    • finalize

      protected void finalize() throws Throwable
      Overrides:
      finalize in class Algorithm
      Throws:
      Throwable