- OpenCV 教程
- OpenCV - 首页
- OpenCV - 概述
- OpenCV - 环境配置
- OpenCV - 图像存储
- OpenCV - 读取图像
- OpenCV - 写入图像
- OpenCV - 图形用户界面 (GUI)
- 绘图函数
- OpenCV - 绘制圆形
- OpenCV - 绘制直线
- OpenCV - 绘制矩形
- OpenCV - 绘制椭圆
- OpenCV - 绘制多边形
- OpenCV - 绘制凸多边形
- OpenCV - 绘制带箭头的直线
- OpenCV - 添加文本
- 滤波
- OpenCV - 双边滤波
- OpenCV - 方框滤波
- OpenCV - 平方盒滤波
- OpenCV - Filter2D
- OpenCV - 膨胀
- OpenCV - 腐蚀
- OpenCV - 形态学操作
- OpenCV - 图像金字塔
- Sobel 算子
- OpenCV - Sobel 算子
- OpenCV - Scharr 算子
- 相机和人脸检测
- OpenCV - 使用相机
- OpenCV - 图片中的人脸检测
- 使用相机进行人脸检测
- OpenCV 有用资源
- OpenCV - 快速指南
- OpenCV - 有用资源
- OpenCV - 讨论
OpenCV - 绘制多边形
您可以使用 `imgproc` 类中的 `polylines()` 方法在图像上绘制多边形。以下是此方法的语法。
polylines(img, pts, isClosed, color, thickness)
此方法接受以下参数:
**mat** - 一个 `Mat` 对象,表示要绘制多边形的图像。
**pts** - 一个 `List` 对象,包含 `MatOfPoint` 类型的对象。
**isClosed** - 一个布尔类型的参数,指定多边形是否闭合。
**scalar** - 一个 `Scalar` 对象,表示多边形的颜色。(BGR)
**thickness** - 一个整数,表示多边形的粗细;默认情况下,粗细值为 1。
**MatOfPoint** 类的构造函数接受 `Point` 类对象。
MatOfPoint(Point... a)
示例
下面的程序演示了如何在图像上绘制多边形,并使用 JavaFX 窗口显示它。
import java.awt.image.BufferedImage; import java.io.ByteArrayInputStream; import java.io.InputStream; import java.util.ArrayList; import java.util.List; import javax.imageio.ImageIO; import javafx.application.Application; import javafx.embed.swing.SwingFXUtils; import javafx.scene.Group; import javafx.scene.Scene; import javafx.scene.image.ImageView; import javafx.scene.image.WritableImage; import javafx.stage.Stage; import org.opencv.core.Core; import org.opencv.core.Mat; import org.opencv.core.MatOfByte; import org.opencv.core.MatOfPoint; import org.opencv.core.Point; import org.opencv.core.Scalar; import org.opencv.imgcodecs.Imgcodecs; import org.opencv.imgproc.Imgproc; public class DrawingPolyLines extends Application { Mat matrix = null; @Override public void start(Stage stage) throws Exception { // Capturing the snapshot from the camera DrawingPolyLines obj = new DrawingPolyLines(); WritableImage writableImage = obj.LoadImage(); // Setting the image view ImageView imageView = new ImageView(writableImage); // setting the fit height and width of the image view imageView.setFitHeight(600); imageView.setFitWidth(600); // Setting the preserve ratio of the image view imageView.setPreserveRatio(true); // Creating a Group object Group root = new Group(imageView); // Creating a scene object Scene scene = new Scene(root, 600, 400); // Setting title to the Stage stage.setTitle("Drawing Polylines on the image"); // Adding scene to the stage stage.setScene(scene); // Displaying the contents of the stage stage.show(); } public WritableImage LoadImage() throws Exception { // Loading the OpenCV core library System.loadLibrary( Core.NATIVE_LIBRARY_NAME ); // Reading the Image from the file and storing it in to a Matrix object String file ="E:/OpenCV/chap8/input.jpg"; Mat matrix = Imgcodecs.imread(file); List<MatOfPoint> list = new ArrayList(); list.add( new MatOfPoint ( new Point(75, 100), new Point(350, 100), new Point(75, 150), new Point(350, 150), new Point(75, 200), new Point(350, 200), new Point(75, 250), new Point(350, 250) ) ); // Drawing polylines Imgproc.polylines ( matrix, // Matrix obj of the image list, // java.util.List<MatOfPoint> pts false, // isClosed new Scalar(0, 0, 255), // Scalar object for color 2 // Thickness of the line ); // Encoding the image MatOfByte matOfByte = new MatOfByte(); Imgcodecs.imencode(".jpg", matrix, matOfByte); // Storing the encoded Mat in a byte array byte[] byteArray = matOfByte.toArray(); // Displaying the image InputStream in = new ByteArrayInputStream(byteArray); BufferedImage bufImage = ImageIO.read(in); this.matrix = matrix; // Creating the Writable Image WritableImage writableImage = SwingFXUtils.toFXImage(bufImage, null); return writableImage; } public static void main(String args[]) { launch(args); } }
执行上述程序后,您将得到以下输出:
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