#!/usr/bin/python # The contents of this file are in the public domain. See LICENSE_FOR_EXAMPLE_PROGRAMS.txt # # This example shows how to use dlib's face recognition tool for clustering using chinese_whispers. # This is useful when you have a collection of photographs which you know are linked to # a particular person, but the person may be photographed with multiple other people. # In this example, we assume the largest cluster will contain photos of the common person in the # collection of photographs. Then, we save extracted images of the face in the largest cluster in # a 150x150 px format which is suitable for jittering and loading to perform metric learning (as shown # in the dnn_metric_learning_on_images_ex.cpp example. # https://github.com/davisking/dlib/blob/master/examples/dnn_metric_learning_on_images_ex.cpp # # COMPILING/INSTALLING THE DLIB PYTHON INTERFACE # You can install dlib using the command: # pip install dlib # # Alternatively, if you want to compile dlib yourself then go into the dlib # root folder and run: # python setup.py install # or # python setup.py install --yes USE_AVX_INSTRUCTIONS # if you have a CPU that supports AVX instructions, since this makes some # things run faster. This code will also use CUDA if you have CUDA and cuDNN # installed. # # Compiling dlib should work on any operating system so long as you have # CMake installed. On Ubuntu, this can be done easily by running the # command: # sudo apt-get install cmake # # Also note that this example requires scikit-image which can be installed # via the command: # pip install scikit-image # Or downloaded from http://scikit-image.org/download.html. import sys import os import dlib import glob from skimage import io if len(sys.argv) != 5: print( "Call this program like this:\n" " ./face_clustering.py shape_predictor_5_face_landmarks.dat dlib_face_recognition_resnet_model_v1.dat ../examples/faces output_folder\n" "You can download a trained facial shape predictor and recognition model from:\n" " http://dlib.net/files/shape_predictor_5_face_landmarks.dat.bz2\n" " http://dlib.net/files/dlib_face_recognition_resnet_model_v1.dat.bz2") exit() predictor_path = sys.argv[1] face_rec_model_path = sys.argv[2] faces_folder_path = sys.argv[3] output_folder_path = sys.argv[4] # Load all the models we need: a detector to find the faces, a shape predictor # to find face landmarks so we can precisely localize the face, and finally the # face recognition model. detector = dlib.get_frontal_face_detector() sp = dlib.shape_predictor(predictor_path) facerec = dlib.face_recognition_model_v1(face_rec_model_path) descriptors = [] images = [] # Now find all the faces and compute 128D face descriptors for each face. for f in glob.glob(os.path.join(faces_folder_path, "*.jpg")): print("Processing file: {}".format(f)) img = io.imread(f) # Ask the detector to find the bounding boxes of each face. The 1 in the # second argument indicates that we should upsample the image 1 time. This # will make everything bigger and allow us to detect more faces. dets = detector(img, 1) print("Number of faces detected: {}".format(len(dets))) # Now process each face we found. for k, d in enumerate(dets): # Get the landmarks/parts for the face in box d. shape = sp(img, d) # Compute the 128D vector that describes the face in img identified by # shape. face_descriptor = facerec.compute_face_descriptor(img, shape) descriptors.append(face_descriptor) images.append((img, shape)) # Now let's cluster the faces. labels = dlib.chinese_whispers_clustering(descriptors, 0.5) num_classes = len(set(labels)) print("Number of clusters: {}".format(num_classes)) # Find biggest class biggest_class = None biggest_class_length = 0 for i in range(0, num_classes): class_length = len([label for label in labels if label == i]) if class_length > biggest_class_length: biggest_class_length = class_length biggest_class = i print("Biggest cluster id number: {}".format(biggest_class)) print("Number of faces in biggest cluster: {}".format(biggest_class_length)) # Find the indices for the biggest class indices = [] for i, label in enumerate(labels): if label == biggest_class: indices.append(i) print("Indices of images in the biggest cluster: {}".format(str(indices))) # Ensure output directory exists if not os.path.isdir(output_folder_path): os.makedirs(output_folder_path) # Save the extracted faces print("Saving faces in largest cluster to output folder...") for i, index in enumerate(indices): img, shape = images[index] file_path = os.path.join(output_folder_path, "face_" + str(i)) # The size and padding arguments are optional with default size=150x150 and padding=0.25 dlib.save_face_chip(img, shape, file_path, size=150, padding=0.25)