using System; using System.Collections.Generic; using System.Diagnostics; using System.IO; using OpenCVForUnity.CoreModule; using UnityEngine; using Vuforia; using Newtonsoft.Json; using OpenCVForUnity.Calib3dModule; using OpenCVForUnity.ImgprocModule; using OpenCVForUnity.ImgcodecsModule; public class HomographyAndState { public List> homography { get; set; } public List> board { get; set; } } public class python_test : MonoBehaviour { Mat camImageMat; Texture2D outputTexture; int baselineWidth = 1500; int baselineHeight = 1500; Mat loadedImage; GameObject rue; bool displayWarped = false; double rueX = 0.51; double rueY = 0.71; Mat camImgCopy; // Start is called before the first frame update void Start() { loadedImage = Imgcodecs.imread("/Users/alexandermunch-hansen/projects/chess_stuff/advancedskrald/whole_boards/boards_for_empty/board_1554285984.187497_rank_4.png"); camImgCopy = loadedImage.clone(); } string runCmd(Mat image) { var buffer = new MatOfByte(); OpenCVForUnity.ImgcodecsModule.Imgcodecs.imencode(".png", camImageMat, buffer); string base64 = Convert.ToBase64String(buffer.toArray()); ProcessStartInfo start = new ProcessStartInfo(); start.FileName = "/Users/alexandermunch-hansen/.virtualenvs/cv/bin/python3"; var cmd = "/Users/alexandermunch-hansen/projects/chess_stuff/advancedskrald/adapter.py"; var args = ""; start.Arguments = string.Format("\"{0}\" \"{1}\"", cmd, args); print(start.Arguments); start.UseShellExecute = false;// Do not use OS shell start.CreateNoWindow = true; // We don't need new window start.RedirectStandardInput = true; start.RedirectStandardOutput = true;// Any output, generated by application will be redirected back start.RedirectStandardError = true; // Any error in standard output will be redirected back (for example exceptions) using (Process process = Process.Start(start)) { using (StreamWriter writer = process.StandardInput) { writer.WriteLine(base64); writer.Close(); } process.WaitForExit(); using (StreamReader reader = process.StandardOutput) { string result = reader.ReadLine(); return (string) result; } } } // Update is called once per frame void Update() { Image camImg = CameraDevice.Instance.GetCameraImage(Image.PIXEL_FORMAT.RGBA8888); Mat outputMat = null; if (camImg != null) { if (camImageMat == null) { camImageMat = new Mat(camImg.Height, camImg.Width, CvType.CV_8UC4); } camImageMat.put(0, 0, camImg.Pixels); if (Input.GetKeyDown("space")) { /* var camImgCopy = camImageMat.clone(); outputMat = camImageMat.clone(); */ print("------------------------------------"); print(loadedImage.size()); outputMat = camImgCopy.clone(); camImageMat = loadedImage.clone(); print("------------------------------------"); var pls = runCmd(camImageMat); Mat homography = new Mat(new Size(3, 3), CvType.CV_64F); HomographyAndState homographyAndState = JsonConvert.DeserializeObject(pls); print(homographyAndState.homography); for (int i = 0; i < 3; i++) { for (int j = 0; j < 3; j++) { homography.put(i, j, homographyAndState.homography[i][j]); print(homographyAndState.homography[i][j]); } } Imgproc.warpPerspective(camImgCopy, outputMat, homography, new Size(baselineWidth, baselineHeight)); //List points = new List(); MatOfPoint2f points = new MatOfPoint2f(); points.alloc(64); var board = homographyAndState.board; int indexer = 0; for (int y = 1; y < 9; y++) { for (int x = 1; x < 9; x++) { var cur_pos = board[x - 1][y - 1]; points.put(indexer, 0, (cur_pos != 6 ? 1 : 0) * y * 165, (cur_pos != 6 ? 1 : 0) * x * 165); indexer += 1; } } /* int cur_level = 0; int index = 0; for (int x = 0; x < 8; x++) { cur_level += 165; foreach (int y in new List { 150, 315 }) { points.put(index, 0, cur_level, y); index += 1; //Imgproc.circle(outputMat, new Point(cur_level, y), 50, new Scalar(255, 0, 0), -1); } }*/ MatOfPoint2f dstPoints = new MatOfPoint2f(); Core.perspectiveTransform(points, dstPoints, homography.inv()); List transformedPoints = dstPoints.toList(); foreach (Point point in transformedPoints) { Imgproc.circle(loadedImage, point, 10, new Scalar(255, 0, 0), -1); } MatDisplay.DisplayMat(loadedImage, MatDisplaySettings.FULL_BACKGROUND); displayWarped = true; /* if (displayWarped) { camImgCopy = loadedImage.clone(); Mat tmpCopy = camImgCopy.clone(); Imgproc.warpPerspective(outputMat,tmpCopy, homography.inv(), camImgCopy.size()); Core.addWeighted(tmpCopy, 0.80f, camImgCopy, 0.7f, 0.0f, camImgCopy); displayWarped = false; } else { displayWarped = true; MatDisplay.DisplayMat(outputMat, MatDisplaySettings.FULL_BACKGROUND); } */ } if (!displayWarped) MatDisplay.DisplayMat(camImgCopy, MatDisplaySettings.FULL_BACKGROUND); } } }