#if !UNITY_WSA_10_0 using System; using System.Collections; using System.Collections.Generic; using System.Linq; using UnityEngine; using UnityEngine.UI; using UnityEngine.SceneManagement; using OpenCVForUnity.CoreModule; using OpenCVForUnity.DnnModule; using OpenCVForUnity.ImgprocModule; using OpenCVForUnity.UnityUtils; using OpenCVForUnity.UnityUtils.Helper; namespace OpenCVForUnityExample { ///

/// Dnn ObjectDetection Example /// Referring to https://github.com/opencv/opencv/blob/master/samples/dnn/object_detection.cpp. ///

[RequireComponent (typeof(WebCamTextureToMatHelper))] public class DnnObjectDetectionWebCamTextureExample : MonoBehaviour { [TooltipAttribute ("Path to a binary file of model contains trained weights. It could be a file with extensions .caffemodel (Caffe), .pb (TensorFlow), .t7 or .net (Torch), .weights (Darknet).")] public string model; [TooltipAttribute ("Path to a text file of model contains network configuration. It could be a file with extensions .prototxt (Caffe), .pbtxt (TensorFlow), .cfg (Darknet).")] public string config; [TooltipAttribute ("Optional path to a text file with names of classes to label detected objects.")] public string classes; [TooltipAttribute ("Optional list of classes to label detected objects.")] public List classesList; [TooltipAttribute ("Confidence threshold.")] public float confThreshold; [TooltipAttribute ("Non-maximum suppression threshold.")] public float nmsThreshold; [TooltipAttribute ("Preprocess input image by multiplying on a scale factor.")] public float scale; [TooltipAttribute ("Preprocess input image by subtracting mean values. Mean values should be in BGR order and delimited by spaces.")] public Scalar mean; [TooltipAttribute ("Indicate that model works with RGB input images instead BGR ones.")] public bool swapRB; [TooltipAttribute ("Preprocess input image by resizing to a specific width.")] public int inpWidth; [TooltipAttribute ("Preprocess input image by resizing to a specific height.")] public int inpHeight; ///

/// The texture. ///

Texture2D texture; ///

/// The webcam texture to mat helper. ///

WebCamTextureToMatHelper webCamTextureToMatHelper; ///

/// The bgr mat. ///

Mat bgrMat; ///

/// The net. ///

Net net; ///

/// The FPS monitor. ///

FpsMonitor fpsMonitor; List classNames; List outBlobNames; List outBlobTypes; string classes_filepath; string config_filepath; string model_filepath; #if UNITY_WEBGL && !UNITY_EDITOR IEnumerator getFilePath_Coroutine; #endif // Use this for initialization void Start () { fpsMonitor = GetComponent (); webCamTextureToMatHelper = gameObject.GetComponent (); #if UNITY_WEBGL && !UNITY_EDITOR getFilePath_Coroutine = GetFilePath (); StartCoroutine (getFilePath_Coroutine); #else classes_filepath = Utils.getFilePath ("dnn/" + classes); config_filepath = Utils.getFilePath ("dnn/" + config); model_filepath = Utils.getFilePath ("dnn/" + model); Run (); #endif } #if UNITY_WEBGL && !UNITY_EDITOR private IEnumerator GetFilePath () { if (!string.IsNullOrEmpty (classes)) { var getFilePathAsync_0_Coroutine = Utils.getFilePathAsync ("dnn/" + classes, (result) => { classes_filepath = result; }); yield return getFilePathAsync_0_Coroutine; } if (!string.IsNullOrEmpty (config)) { var getFilePathAsync_1_Coroutine = Utils.getFilePathAsync ("dnn/" + config, (result) => { config_filepath = result; }); yield return getFilePathAsync_1_Coroutine; } if (!string.IsNullOrEmpty (model)) { var getFilePathAsync_2_Coroutine = Utils.getFilePathAsync ("dnn/" + model, (result) => { model_filepath = result; }); yield return getFilePathAsync_2_Coroutine; } getFilePath_Coroutine = null; Run (); } #endif // Use this for initialization void Run () { //if true, The error log of the Native side OpenCV will be displayed on the Unity Editor Console. Utils.setDebugMode (true); if (!string.IsNullOrEmpty (classes)) { classNames = readClassNames (classes_filepath); #if !UNITY_WSA_10_0 if (classNames == null) { Debug.LogError (classes_filepath + " is not loaded. Please see \"StreamingAssets/dnn/setup_dnn_module.pdf\". "); } #endif } else if (classesList.Count > 0) { classNames = classesList; } if (string.IsNullOrEmpty (config_filepath) || string.IsNullOrEmpty (model_filepath)) { Debug.LogError (config_filepath + " or " + model_filepath + " is not loaded. Please see \"StreamingAssets/dnn/setup_dnn_module.pdf\". "); } else { //! [Initialize network] net = Dnn.readNet (model_filepath, config_filepath); //! [Initialize network] outBlobNames = getOutputsNames (net); // for (int i = 0; i < outBlobNames.Count; i++) { // Debug.Log ("names [" + i + "] " + outBlobNames [i]); // } outBlobTypes = getOutputsTypes (net); // for (int i = 0; i < outBlobTypes.Count; i++) { // Debug.Log ("types [" + i + "] " + outBlobTypes [i]); // } } #if UNITY_ANDROID && !UNITY_EDITOR // Avoids the front camera low light issue that occurs in only some Android devices (e.g. Google Pixel, Pixel2). webCamTextureToMatHelper.avoidAndroidFrontCameraLowLightIssue = true; #endif webCamTextureToMatHelper.Initialize (); } ///

/// Raises the webcam texture to mat helper initialized event. ///

public void OnWebCamTextureToMatHelperInitialized () { Debug.Log ("OnWebCamTextureToMatHelperInitialized"); Mat webCamTextureMat = webCamTextureToMatHelper.GetMat (); texture = new Texture2D (webCamTextureMat.cols (), webCamTextureMat.rows (), TextureFormat.RGBA32, false); gameObject.GetComponent ().material.mainTexture = texture; gameObject.transform.localScale = new Vector3 (webCamTextureMat.cols (), webCamTextureMat.rows (), 1); Debug.Log ("Screen.width " + Screen.width + " Screen.height " + Screen.height + " Screen.orientation " + Screen.orientation); if (fpsMonitor != null) { fpsMonitor.Add ("width", webCamTextureMat.width ().ToString ()); fpsMonitor.Add ("height", webCamTextureMat.height ().ToString ()); fpsMonitor.Add ("orientation", Screen.orientation.ToString ()); } float width = webCamTextureMat.width (); float height = webCamTextureMat.height (); float widthScale = (float)Screen.width / width; float heightScale = (float)Screen.height / height; if (widthScale < heightScale) { Camera.main.orthographicSize = (width * (float)Screen.height / (float)Screen.width) / 2; } else { Camera.main.orthographicSize = height / 2; } bgrMat = new Mat (webCamTextureMat.rows (), webCamTextureMat.cols (), CvType.CV_8UC3); } ///

/// Raises the webcam texture to mat helper disposed event. ///

public void OnWebCamTextureToMatHelperDisposed () { Debug.Log ("OnWebCamTextureToMatHelperDisposed"); if (bgrMat != null) bgrMat.Dispose (); if (texture != null) { Texture2D.Destroy (texture); texture = null; } } ///

/// Raises the webcam texture to mat helper error occurred event. ///

/// Error code. public void OnWebCamTextureToMatHelperErrorOccurred (WebCamTextureToMatHelper.ErrorCode errorCode) { Debug.Log ("OnWebCamTextureToMatHelperErrorOccurred " + errorCode); } // Update is called once per frame void Update () { if (webCamTextureToMatHelper.IsPlaying () && webCamTextureToMatHelper.DidUpdateThisFrame ()) { Mat rgbaMat = webCamTextureToMatHelper.GetMat (); if (net == null) { Imgproc.putText (rgbaMat, "model file is not loaded.", new Point (5, rgbaMat.rows () - 30), Imgproc.FONT_HERSHEY_SIMPLEX, 0.7, new Scalar (255, 255, 255, 255), 2, Imgproc.LINE_AA, false); Imgproc.putText (rgbaMat, "Please read console message.", new Point (5, rgbaMat.rows () - 10), Imgproc.FONT_HERSHEY_SIMPLEX, 0.7, new Scalar (255, 255, 255, 255), 2, Imgproc.LINE_AA, false); } else { Imgproc.cvtColor (rgbaMat, bgrMat, Imgproc.COLOR_RGBA2BGR); // Create a 4D blob from a frame. Size inpSize = new Size (inpWidth > 0 ? inpWidth : bgrMat.cols (), inpHeight > 0 ? inpHeight : bgrMat.rows ()); Mat blob = Dnn.blobFromImage (bgrMat, scale, inpSize, mean, swapRB, false); // Run a model. net.setInput (blob); if (net.getLayer (new DictValue (0)).outputNameToIndex ("im_info") != -1) { // Faster-RCNN or R-FCN Imgproc.resize (bgrMat, bgrMat, inpSize); Mat imInfo = new Mat (1, 3, CvType.CV_32FC1); imInfo.put (0, 0, new float[] { (float)inpSize.height, (float)inpSize.width, 1.6f }); net.setInput (imInfo, "im_info"); } TickMeter tm = new TickMeter (); tm.start (); List outs = new List (); net.forward (outs, outBlobNames); tm.stop (); // Debug.Log ("Inference time, ms: " + tm.getTimeMilli ()); postprocess (rgbaMat, outs, net); for (int i = 0; i < outs.Count; i++) { outs [i].Dispose (); } blob.Dispose (); } Utils.fastMatToTexture2D (rgbaMat, texture); } } ///

/// Raises the destroy event. ///

void OnDestroy () { webCamTextureToMatHelper.Dispose (); if (net != null) net.Dispose (); Utils.setDebugMode (false); #if UNITY_WEBGL && !UNITY_EDITOR if (getFilePath_Coroutine != null) { StopCoroutine (getFilePath_Coroutine); ((IDisposable)getFilePath_Coroutine).Dispose (); } #endif } ///

/// Raises the back button click event. ///

public void OnBackButtonClick () { SceneManager.LoadScene ("OpenCVForUnityExample"); } ///

/// Raises the play button click event. ///

public void OnPlayButtonClick () { webCamTextureToMatHelper.Play (); } ///

/// Raises the pause button click event. ///

public void OnPauseButtonClick () { webCamTextureToMatHelper.Pause (); } ///

/// Raises the stop button click event. ///

public void OnStopButtonClick () { webCamTextureToMatHelper.Stop (); } ///

/// Raises the change camera button click event. ///

public void OnChangeCameraButtonClick () { webCamTextureToMatHelper.requestedIsFrontFacing = !webCamTextureToMatHelper.IsFrontFacing (); } ///

/// Reads the class names. ///

/// The class names. /// Filename. private List readClassNames (string filename) { List classNames = new List (); System.IO.StreamReader cReader = null; try { cReader = new System.IO.StreamReader (filename, System.Text.Encoding.Default); while (cReader.Peek () >= 0) { string name = cReader.ReadLine (); classNames.Add (name); } } catch (System.Exception ex) { Debug.LogError (ex.Message); return null; } finally { if (cReader != null) cReader.Close (); } return classNames; } ///

/// Postprocess the specified frame, outs and net. ///

/// Frame. /// Outs. /// Net. private void postprocess (Mat frame, List outs, Net net) { string outLayerType = outBlobTypes [0]; List classIdsList = new List (); List confidencesList = new List (); List boxesList = new List (); if (net.getLayer (new DictValue (0)).outputNameToIndex ("im_info") != -1) { // Faster-RCNN or R-FCN // Network produces output blob with a shape 1x1xNx7 where N is a number of // detections and an every detection is a vector of values // [batchId, classId, confidence, left, top, right, bottom] if (outs.Count == 1) { outs [0] = outs [0].reshape (1, (int)outs [0].total () / 7); // Debug.Log ("outs[i].ToString() " + outs [0].ToString ()); float[] data = new float[7]; for (int i = 0; i < outs [0].rows (); i++) { outs [0].get (i, 0, data); float confidence = data [2]; if (confidence > confThreshold) { int class_id = (int)(data [1]); int left = (int)(data [3] * frame.cols ()); int top = (int)(data [4] * frame.rows ()); int right = (int)(data [5] * frame.cols ()); int bottom = (int)(data [6] * frame.rows ()); int width = right - left + 1; int height = bottom - top + 1; classIdsList.Add ((int)(class_id) - 0); confidencesList.Add ((float)confidence); boxesList.Add (new OpenCVForUnity.CoreModule.Rect (left, top, width, height)); } } } } else if (outLayerType == "DetectionOutput") { // Network produces output blob with a shape 1x1xNx7 where N is a number of // detections and an every detection is a vector of values // [batchId, classId, confidence, left, top, right, bottom] if (outs.Count == 1) { outs [0] = outs [0].reshape (1, (int)outs [0].total () / 7); // Debug.Log ("outs[i].ToString() " + outs [0].ToString ()); float[] data = new float[7]; for (int i = 0; i < outs [0].rows (); i++) { outs [0].get (i, 0, data); float confidence = data [2]; if (confidence > confThreshold) { int class_id = (int)(data [1]); int left = (int)(data [3] * frame.cols ()); int top = (int)(data [4] * frame.rows ()); int right = (int)(data [5] * frame.cols ()); int bottom = (int)(data [6] * frame.rows ()); int width = right - left + 1; int height = bottom - top + 1; classIdsList.Add ((int)(class_id) - 0); confidencesList.Add ((float)confidence); boxesList.Add (new OpenCVForUnity.CoreModule.Rect (left, top, width, height)); } } } } else if (outLayerType == "Region") { for (int i = 0; i < outs.Count; ++i) { // Network produces output blob with a shape NxC where N is a number of // detected objects and C is a number of classes + 4 where the first 4 // numbers are [center_x, center_y, width, height] // Debug.Log ("outs[i].ToString() "+outs[i].ToString()); float[] positionData = new float[5]; float[] confidenceData = new float[outs [i].cols () - 5]; for (int p = 0; p < outs [i].rows (); p++) { outs [i].get (p, 0, positionData); outs [i].get (p, 5, confidenceData); int maxIdx = confidenceData.Select ((val, idx) => new { V = val, I = idx }).Aggregate ((max, working) => (max.V > working.V) ? max : working).I; float confidence = confidenceData [maxIdx]; if (confidence > confThreshold) { int centerX = (int)(positionData [0] * frame.cols ()); int centerY = (int)(positionData [1] * frame.rows ()); int width = (int)(positionData [2] * frame.cols ()); int height = (int)(positionData [3] * frame.rows ()); int left = centerX - width / 2; int top = centerY - height / 2; classIdsList.Add (maxIdx); confidencesList.Add ((float)confidence); boxesList.Add (new OpenCVForUnity.CoreModule.Rect (left, top, width, height)); } } } } else { Debug.Log ("Unknown output layer type: " + outLayerType); } MatOfRect boxes = new MatOfRect (); boxes.fromList (boxesList); MatOfFloat confidences = new MatOfFloat (); confidences.fromList (confidencesList); MatOfInt indices = new MatOfInt (); Dnn.NMSBoxes (boxes, confidences, confThreshold, nmsThreshold, indices); // Debug.Log ("indices.dump () "+indices.dump ()); // Debug.Log ("indices.ToString () "+indices.ToString()); for (int i = 0; i < indices.total (); ++i) { int idx = (int)indices.get (i, 0) [0]; OpenCVForUnity.CoreModule.Rect box = boxesList [idx]; drawPred (classIdsList [idx], confidencesList [idx], box.x, box.y, box.x + box.width, box.y + box.height, frame); } indices.Dispose (); boxes.Dispose (); confidences.Dispose (); } ///

/// Draws the pred. ///

/// Class identifier. /// Conf. /// Left. /// Top. /// Right. /// Bottom. /// Frame. private void drawPred (int classId, float conf, int left, int top, int right, int bottom, Mat frame) { Imgproc.rectangle (frame, new Point (left, top), new Point (right, bottom), new Scalar (0, 255, 0, 255), 2); string label = conf.ToString (); if (classNames != null && classNames.Count != 0) { if (classId < (int)classNames.Count) { label = classNames [classId] + ": " + label; } } int[] baseLine = new int[1]; Size labelSize = Imgproc.getTextSize (label, Imgproc.FONT_HERSHEY_SIMPLEX, 0.5, 1, baseLine); top = Mathf.Max (top, (int)labelSize.height); Imgproc.rectangle (frame, new Point (left, top - labelSize.height), new Point (left + labelSize.width, top + baseLine [0]), Scalar.all (255), Core.FILLED); Imgproc.putText (frame, label, new Point (left, top), Imgproc.FONT_HERSHEY_SIMPLEX, 0.5, new Scalar (0, 0, 0, 255)); } ///

/// Gets the outputs names. ///

/// The outputs names. /// Net. private List getOutputsNames (Net net) { List names = new List (); MatOfInt outLayers = net.getUnconnectedOutLayers (); for (int i = 0; i < outLayers.total (); ++i) { names.Add (net.getLayer (new DictValue ((int)outLayers.get (i, 0) [0])).get_name ()); } outLayers.Dispose (); return names; } ///

/// Gets the outputs types. ///

/// The outputs types. /// Net. private List getOutputsTypes (Net net) { List types = new List (); MatOfInt outLayers = net.getUnconnectedOutLayers (); for (int i = 0; i < outLayers.total (); ++i) { types.Add (net.getLayer (new DictValue ((int)outLayers.get (i, 0) [0])).get_type ()); } outLayers.Dispose (); return types; } } } #endif