test

2025-06-07 20:15:21 +00:00 · 2022-05-24 13:59:16 +00:00 · 2022-05-24 13:59:16 +00:00 · 84a1ac64a5
commit 84a1ac64a5
parent 4cc2fd8782
1 changed files with 151 additions and 281 deletions
--- a/tests/unit_tests.py
+++ b/tests/unit_tests.py
@ -1,188 +1,41 @@
 import warnings
 warnings.filterwarnings("ignore")
 import os
-#os.environ['TF_CPP_MIN_LOG_LEVEL'] = '2'
+import tensorflow as tf
 import cv2
 from deepface import DeepFace
 print("-----------------------------------------")
 warnings.filterwarnings("ignore")
 os.environ['TF_CPP_MIN_LOG_LEVEL'] = '3'
-import json
+tf_major_version = int(tf.__version__.split(".")[0])
 import time
 import unittest
-#-----------------------------------------
+if tf_major_version == 2:
 import tensorflow as tf
 class deepface_unit_tests(unittest.TestCase):
    def test_deepface(self):
        tf_version = int(tf.__version__.split(".")[0])
        if tf_version == 2:
 	import logging
 	tf.get_logger().setLevel(logging.ERROR)
 print("Running unit tests for TF ", tf.__version__)
        from deepface import DeepFace
        from deepface.commons import functions
        from deepface.basemodels import VGGFace, OpenFace, Facenet, FbDeepFace
        from deepface.extendedmodels import Age, Gender, Race, Emotion
        print("-----------------------------------------")
        #-----------------------------------------
        print("DeepFace.detectFace test")
        #detectors = ['opencv', 'ssd', 'dlib', 'mtcnn', 'retinaface']
        detectors = ['opencv', 'ssd', 'mtcnn', 'retinaface']
        for detector in detectors:
            img = DeepFace.detectFace("dataset/img11.jpg", detector_backend = detector)
            print(detector," test is done")
        #import matplotlib.pyplot as plt
        #plt.imshow(img)
        #plt.show()
        #-----------------------------------------
 print("-----------------------------------------")
-        img_path = "dataset/img1.jpg"
+expected_coverage = 97
-        embedding = DeepFace.represent(img_path)
+num_cases = 0; succeed_cases = 0
        print("Function returned ", len(embedding), "dimensional vector")
-        model_name = "VGG-Face"
+def evaluate(condition):
        model = DeepFace.build_model(model_name)
        print(model_name," is built")
        embedding = DeepFace.represent(img_path, model = model)
        print("Represent function returned ", len(embedding), "dimensional vector")
-        #-----------------------------------------
+	global num_cases, succeed_cases
-        dataset = [
+	if condition is True:
-            ['dataset/img1.jpg', 'dataset/img2.jpg', True],
+		succeed_cases += 1
            ['dataset/img1.jpg', 'dataset/img6.jpg', True]
        ]
-        print("-----------------------------------------")
+	num_cases += 1
-        print("Face detectors test")
+# ------------------------------------------------
-        print("retinaface detector")
+detectors = ['opencv', 'mtcnn', 'retinaface']
-        res = DeepFace.verify(dataset, detector_backend = 'retinaface')
+models = ['VGG-Face', 'Facenet', 'Facenet512', 'ArcFace', 'SFace']
-        print(res)
+metrics = ['cosine', 'euclidean', 'euclidean_l2']
        print("ssd detector")
        res = DeepFace.verify(dataset, detector_backend = 'ssd')
        print(res)
        print("opencv detector")
        res = DeepFace.verify(dataset, detector_backend = 'opencv')
        print(res)
        if False:
            print("dlib detector")
            res = DeepFace.verify(dataset, detector_backend = 'dlib')
            print(res)
        print("mtcnn detector")
        res = DeepFace.verify(dataset, detector_backend = 'mtcnn')
        print(res)
        print("-----------------------------------------")
        print("Single find function test")
        df = DeepFace.find(img_path = "dataset/img1.jpg", db_path = "dataset"
            #, model_name = 'Dlib'
        )
        print(df.head())
        print("-----------------------------------------")
        print("Pre-built model for single find function test")
        #model_name = "VGG-Face"
        #model = DeepFace.build_model(model_name)
        #print(model_name," is built")
        df = DeepFace.find(img_path = "dataset/img1.jpg", db_path = "dataset"
                            , model_name = model_name, model = model
        )
        print(df.head())
        print("-----------------------------------------")
        print("Bulk find function tests")
        dfs = DeepFace.find(img_path = ["dataset/img1.jpg", "dataset/img2.jpg"], db_path = "dataset"
            #, model_name = 'Dlib'
        )
        print(dfs[0].head())
        print(dfs[1].head())
        print("-----------------------------------------")
        print("Bulk verification tests")
        resp_obj = DeepFace.verify(dataset)
        print(resp_obj)
        print(resp_obj["pair_1"]["verified"] == True)
        print(resp_obj["pair_2"]["verified"] == True)
        print("-----------------------------------------")
        print("Bulk facial analysis tests")
        dataset = [
            'dataset/img1.jpg',
            'dataset/img2.jpg',
            'dataset/img5.jpg',
            'dataset/img6.jpg'
        ]
        resp_obj = DeepFace.analyze(dataset)
        print(resp_obj["instance_1"]["age"]," years old ", resp_obj["instance_1"]["dominant_emotion"], " ",resp_obj["instance_1"]["gender"])
        print(resp_obj["instance_2"]["age"]," years old ", resp_obj["instance_2"]["dominant_emotion"], " ",resp_obj["instance_2"]["gender"])
        print(resp_obj["instance_3"]["age"]," years old ", resp_obj["instance_3"]["dominant_emotion"], " ",resp_obj["instance_3"]["gender"])
        print(resp_obj["instance_4"]["age"]," years old ", resp_obj["instance_4"]["dominant_emotion"], " ",resp_obj["instance_4"]["gender"])
        print("-----------------------------------------")
        print("Facial analysis test. Passing nothing as an action")
        img = "dataset/img4.jpg"
        demography = DeepFace.analyze(img)
        print(demography)
        print("-----------------------------------------")
        print("Facial analysis test. Passing all to the action")
        demography = DeepFace.analyze(img, ['age', 'gender', 'race', 'emotion'])
        print("Demography:")
        print(demography)
        #check response is a valid json
        print("Age: ", demography["age"])
        print("Gender: ", demography["gender"])
        print("Race: ", demography["dominant_race"])
        print("Emotion: ", demography["dominant_emotion"])
        print("-----------------------------------------")
        print("Facial analysis test 2. Remove some actions and check they are not computed")
        demography = DeepFace.analyze(img, ['age', 'gender'])
        print("Age: ", demography.get("age"))
        print("Gender: ", demography.get("gender"))
        print("Race: ", demography.get("dominant_race"))
        print("Emotion: ", demography.get("dominant_emotion"))
        print("-----------------------------------------")
        print("Face recognition tests")
 dataset = [
 	['dataset/img1.jpg', 'dataset/img2.jpg', True],
@ -198,15 +51,92 @@ class deepface_unit_tests(unittest.TestCase):
 	['dataset/img6.jpg', 'dataset/img9.jpg', False],
 ]
-        #models = ['VGG-Face', 'Facenet', 'OpenFace', 'DeepFace', 'DeepID', 'Dlib', 'ArcFace']
+print("-----------------------------------------")
        models = ['VGG-Face', 'Facenet', 'Facenet512', 'ArcFace', 'SFace'] #those are robust models
        metrics = ['cosine', 'euclidean', 'euclidean_l2']
-        passed_tests = 0; test_cases = 0
+def test_cases():
 	print("DeepFace.detectFace test")
 	for detector in detectors:
 		img = DeepFace.detectFace("dataset/img11.jpg", detector_backend = detector)
 		evaluate(img.shape[0] > 0 and img.shape[1] > 0)
 		print(detector," test is done")
 	print("-----------------------------------------")
 	img_path = "dataset/img1.jpg"
 	embedding = DeepFace.represent(img_path)
 	print("Function returned ", len(embedding), "dimensional vector")
 	evaluate(len(embedding) > 0)
 	print("-----------------------------------------")
 	print("Face detectors test")
 	for detector in detectors:
 		print(detector + " detector")
 		res = DeepFace.verify(dataset[0][0], dataset[0][1], detector_backend = detector)
 		print(res)
 		assert res["verified"] == dataset[0][2]
 	print("-----------------------------------------")
 	print("Find function test")
 	df = DeepFace.find(img_path = "dataset/img1.jpg", db_path = "dataset")
 	print(df.head())
 	evaluate(df.shape[0] > 0)
 	print("-----------------------------------------")
 	print("Facial analysis test. Passing nothing as an action")
 	img = "dataset/img4.jpg"
 	demography = DeepFace.analyze(img)
 	print(demography)
 	evaluate(demography["age"] > 20 and demography["age"] < 40)
 	evaluate(demography["gender"] == "Woman")
 	print("-----------------------------------------")
 	print("Facial analysis test. Passing all to the action")
 	demography = DeepFace.analyze(img, ['age', 'gender', 'race', 'emotion'])
 	print("Demography:")
 	print(demography)
 	#check response is a valid json
 	print("Age: ", demography["age"])
 	print("Gender: ", demography["gender"])
 	print("Race: ", demography["dominant_race"])
 	print("Emotion: ", demography["dominant_emotion"])
 	evaluate(demography.get("age") is not None)
 	evaluate(demography.get("gender") is not None) 
 	evaluate(demography.get("dominant_race") is not None) 
 	evaluate(demography.get("dominant_emotion") is not None)
 	print("-----------------------------------------")
 	print("Facial analysis test 2. Remove some actions and check they are not computed")
 	demography = DeepFace.analyze(img, ['age', 'gender'])
 	print("Age: ", demography.get("age"))
 	print("Gender: ", demography.get("gender"))
 	print("Race: ", demography.get("dominant_race"))
 	print("Emotion: ", demography.get("dominant_emotion"))
 	evaluate(demography.get("age") is not None)
 	evaluate(demography.get("gender") is not None)
 	evaluate(demography.get("dominant_race") is None)
 	evaluate(demography.get("dominant_emotion") is None)
 	print("-----------------------------------------")
 	print("Facial recognition tests")
 	for model in models:
            #prebuilt_model = DeepFace.build_model(model)
            #print(model," is built")
 		for metric in metrics:
 			for instance in dataset:
 				img1 = instance[0]
@ -215,117 +145,41 @@ class deepface_unit_tests(unittest.TestCase):
 				resp_obj = DeepFace.verify(img1, img2
 							, model_name = model
                                #, model = prebuilt_model
 							, distance_metric = metric)
 				prediction = resp_obj["verified"]
 				distance = round(resp_obj["distance"], 2)
 				threshold = resp_obj["threshold"]
-                    test_result_label = "failed"
+				passed = prediction == result 
-                    if prediction == result:
+
-                        passed_tests = passed_tests + 1
+				evaluate(passed)
 				if passed:
 					test_result_label = "passed"
 				else:
 					test_result_label = "failed"
 				if prediction == True:
 					classified_label = "verified"
 				else:
 					classified_label = "unverified"
                    test_cases = test_cases + 1
 				print(img1.split("/")[-1], "-", img2.split("/")[-1], classified_label, "as same person based on", model,"and",metric,". Distance:",distance,", Threshold:", threshold,"(",test_result_label,")")
 			print("--------------------------")
 	# -----------------------------------------
        print("Passed unit tests: ",passed_tests," / ",test_cases)
        min_score = 70
        accuracy = 100 * passed_tests / test_cases
        accuracy = round(accuracy, 2)
        if accuracy >= min_score:
            print("Unit tests are completed successfully. Score: ",accuracy,"%")
        else:
            raise ValueError("Unit test score does not satisfy the minimum required accuracy. Minimum expected score is ", min_score,"% but this got ",accuracy,"%")
        #-----------------------------------
        #-----------------------------------
        print("Analyze function with passing pre-trained model")
        emotion_model = DeepFace.build_model("Emotion")
        age_model = DeepFace.build_model("Age")
        gender_model = DeepFace.build_model("Gender")
        race_model = DeepFace.build_model("Race")
        facial_attribute_models = {}
        facial_attribute_models["emotion"] = emotion_model
        facial_attribute_models["age"] = age_model
        facial_attribute_models["gender"] = gender_model
        facial_attribute_models["race"] = race_model
        resp_obj = DeepFace.analyze("dataset/img1.jpg", models=facial_attribute_models)
        print(resp_obj)
        #-----------------------------------
        print("--------------------------")
        if False:
            print("Ensemble for find function")
            df = DeepFace.find(img_path = "dataset/img1.jpg", db_path = "dataset", model_name = "Ensemble")
            print(df.head())
        #-----------------------------------
        print("--------------------------")
        if False:
            print("Ensemble for verify function")
            resp_obj = DeepFace.verify(dataset, model_name = "Ensemble")
            for i in range(0, len(dataset)):
                item = resp_obj['pair_%s' % (i+1)]
                verified = item["verified"]
                score = item["score"]
                print(verified)
        #-----------------------------------
        print("--------------------------")
        if False:
            print("Pre-trained ensemble method - find")
            from deepface import DeepFace
            from deepface.basemodels import Boosting
            model = Boosting.loadModel()
            df = DeepFace.find("dataset/img1.jpg", db_path = "dataset", model_name = 'Ensemble', model = model, enforce_detection=False)
            print(df)
        #-----------------------------------
        print("--------------------------")
        if False:
            print("Pre-trained ensemble method - verify")
            res = DeepFace.verify(dataset, model_name = "Ensemble", model = model)
            print(res)
        #-----------------------------------
        print("--------------------------")
        import cv2
 	print("Passing numpy array to analyze function")
 	img = cv2.imread("dataset/img1.jpg")
 	resp_obj = DeepFace.analyze(img)
 	print(resp_obj)
 	evaluate(resp_obj["age"] > 20 and resp_obj["age"] < 40)
 	evaluate(resp_obj["gender"] == "Woman")
 	print("--------------------------")
 	print("Passing numpy array to verify function")
@ -336,6 +190,8 @@ class deepface_unit_tests(unittest.TestCase):
 	res = DeepFace.verify(img1, img2)
 	print(res)
 	evaluate(res["verified"] == True)
 	print("--------------------------")
 	print("Passing numpy array to find function")
@ -346,8 +202,22 @@ class deepface_unit_tests(unittest.TestCase):
 	print(df.head())
 	evaluate(df.shape[0] > 0)
 	print("--------------------------")
-        self.assertEqual(accuracy >= min_score, True, "A problem on the deepface installation.")
+test_cases()
-unittest.main(exit=False)
+print("num of test cases run: " + str(num_cases))
 print("succeeded test cases: " + str(succeed_cases))
 test_score = (100 * succeed_cases) / num_cases
 print("test coverage: " + str(test_score))
 if test_score > expected_coverage:
 	print("well done! min required test coverage is satisfied")
 else:
 	print("min required test coverage is NOT satisfied")
 assert test_score > expected_coverage