Fixes #8
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.gitignore
vendored
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.gitignore
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@ -1,5 +1,6 @@
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data
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data
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.idea
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.idea
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.yoloface
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# Byte-compiled / optimized / DLL files
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# Byte-compiled / optimized / DLL files
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__pycache__/
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__pycache__/
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54
face_detect.py
Normal file
54
face_detect.py
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@ -0,0 +1,54 @@
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import cv2
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import numpy as np
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from yoloface import face_analysis
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face_detector = face_analysis()
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def equalize_image(data: np.ndarray):
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data_hsv = cv2.cvtColor(data, cv2.COLOR_RGB2HSV)
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data_hsv[:, :, 2] = cv2.equalizeHist(data_hsv[:, :, 2])
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return cv2.cvtColor(data_hsv, cv2.COLOR_HSV2RGB)
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def find_face_bbox_yolo(data: np.ndarray):
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_, box, conf = face_detector.face_detection(frame_arr=data, frame_status=True, model='full')
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if len(box) < 1:
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return None, None
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return box, conf
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def find_face_bbox(data: np.ndarray):
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classifier_files = [
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'haarcascades/haarcascade_frontalface_default.xml',
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'haarcascades/haarcascade_frontalface_alt.xml',
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'haarcascades/haarcascade_frontalface_alt2.xml',
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'haarcascades/haarcascade_profileface.xml',
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'haarcascades/haarcascade_glasses.xml',
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'lbpcascade_animeface.xml',
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]
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data_equalized = equalize_image(data)
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data_gray = cv2.cvtColor(data_equalized, cv2.COLOR_RGB2GRAY)
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face_coords, conf = find_face_bbox_yolo(cv2.cvtColor(data_equalized, cv2.COLOR_RGB2BGR))
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if face_coords is not None:
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return face_coords[0]
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for classifier in classifier_files:
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face_cascade = cv2.CascadeClassifier(classifier)
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face_coords = face_cascade.detectMultiScale(data_gray, 1.1, 3)
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if face_coords is not None:
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break
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return max(face_coords, key=lambda v: v[2]*v[3])
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def crop_face(data: np.ndarray, bounding_box) -> np.ndarray:
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x, y, w, h = bounding_box
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# Extending the boxes
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factor = 0.4
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x, y = round(x - factor * w), round(y - factor * h)
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w, h = round(w + factor * w * 2), round(h + factor * h * 2)
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y = max(y, 0)
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x = max(x, 0)
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face = data[y:y + h, x:x + w]
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return face
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23550
haarcascades/haarcascade_frontalface_alt2.xml
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23550
haarcascades/haarcascade_frontalface_alt2.xml
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File diff suppressed because it is too large
Load Diff
33158
haarcascades/haarcascade_glasses.xml
Normal file
33158
haarcascades/haarcascade_glasses.xml
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File diff suppressed because it is too large
Load Diff
31930
haarcascades/haarcascade_profileface.xml
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31930
haarcascades/haarcascade_profileface.xml
Normal file
File diff suppressed because it is too large
Load Diff
12
helpers.py
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12
helpers.py
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@ -0,0 +1,12 @@
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import os
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import sys
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def no_stdout(func):
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def wrapper(*args, **kwargs):
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old_stdout = sys.stdout
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sys.stdout = open(os.devnull, "w")
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ret = func(*args, **kwargs)
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sys.stdout = old_stdout
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return ret
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return wrapper
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@ -5,7 +5,11 @@ import cv2 as cv
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from pathlib import Path
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from pathlib import Path
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def load_data(input_dir, newSize=(64,64)):
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def load_source(filename: str) -> np.ndarray:
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return cv.imread(filename)[..., ::-1]
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def load_data(input_dir):
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image_path = Path(input_dir)
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image_path = Path(input_dir)
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file_names = os.listdir(image_path)
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file_names = os.listdir(image_path)
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categories_name = []
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categories_name = []
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@ -27,8 +31,7 @@ def load_data(input_dir, newSize=(64,64)):
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for n in file_names:
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for n in file_names:
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p = image_path / n
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p = image_path / n
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img = imread(p) # zwraca ndarry postaci xSize x ySize x colorDepth
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img = load_source(str(p)) # zwraca ndarry postaci xSize x ySize x colorDepth
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img = cv.resize(img, newSize, interpolation=cv.INTER_AREA) # zwraca ndarray
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test_img.append(img)
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test_img.append(img)
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labels.append(n)
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labels.append(n)
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105
main.py
105
main.py
@ -1,10 +1,15 @@
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import argparse
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import argparse
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import sys
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import sys
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import cv2
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import cv2
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import matplotlib.pyplot as plt
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import numpy as np
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import numpy as np
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from comparisons import histogram_comparison, structural_similarity_index, euclidean_distance
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from metrics import histogram_comparison, structural_similarity_index, euclidean_distance, AccuracyGatherer
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from load_test_data import load_data
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from face_detect import find_face_bbox, crop_face
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from helpers import no_stdout
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from load_test_data import load_data, load_source
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from metrics import get_top_results
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from plots import plot_two_images, plot_results
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from plots import plot_two_images, plot_results
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# Allows imports from the style transfer submodule
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# Allows imports from the style transfer submodule
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@ -13,21 +18,10 @@ sys.path.append('DCT-Net')
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from source.cartoonize import Cartoonizer
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from source.cartoonize import Cartoonizer
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def load_source(filename: str) -> np.ndarray:
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anime_transfer = Cartoonizer(dataroot='DCT-Net/damo/cv_unet_person-image-cartoon_compound-models')
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return cv2.imread(filename)[..., ::-1]
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def find_and_crop_face(data: np.ndarray, classifier_file='haarcascades/haarcascade_frontalface_default.xml') -> np.ndarray:
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def compare_with_anime_characters(source_image: np.ndarray, anime_faces_dataset: dict, verbose=False) -> list[dict]:
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data_gray = cv2.cvtColor(data, cv2.COLOR_BGR2GRAY)
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face_cascade = cv2.CascadeClassifier(classifier_file)
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face = face_cascade.detectMultiScale(data_gray, 1.1, 3)
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face = max(face, key=len)
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x, y, w, h = face
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face = data[y:y + h, x:x + w]
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return face
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def compare_with_anime_characters(source: np.ndarray, anime_faces_dataset: dict, verbose=False) -> list[dict]:
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all_metrics = []
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all_metrics = []
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for anime_image, label in zip(anime_faces_dataset['values'], anime_faces_dataset['labels']):
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for anime_image, label in zip(anime_faces_dataset['values'], anime_faces_dataset['labels']):
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current_result = {
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current_result = {
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@ -37,7 +31,7 @@ def compare_with_anime_characters(source: np.ndarray, anime_faces_dataset: dict,
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# TODO: Use a different face detection method for anime images
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# TODO: Use a different face detection method for anime images
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# anime_face = find_and_crop_face(anime_image, 'haarcascades/lbpcascade_animeface.xml')
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# anime_face = find_and_crop_face(anime_image, 'haarcascades/lbpcascade_animeface.xml')
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anime_face = anime_image
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anime_face = anime_image
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source_rescaled = cv2.resize(source, anime_face.shape[:2])
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source_rescaled = cv2.resize(source_image, anime_face.shape[:2])
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if verbose:
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if verbose:
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plot_two_images(anime_face, source_rescaled)
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plot_two_images(anime_face, source_rescaled)
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current_result['metrics'] = histogram_comparison(source_rescaled, anime_face)
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current_result['metrics'] = histogram_comparison(source_rescaled, anime_face)
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@ -48,52 +42,73 @@ def compare_with_anime_characters(source: np.ndarray, anime_faces_dataset: dict,
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return all_metrics
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return all_metrics
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def get_top_results(all_metrics: list[dict], metric='correlation', count=1):
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@no_stdout
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all_metrics.sort(reverse=True, key=lambda item: item['metrics'][metric])
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return list(map(lambda item: {'name': item['name'], 'score': item['metrics'][metric]}, all_metrics[:count]))
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def transfer_to_anime(img: np.ndarray):
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def transfer_to_anime(img: np.ndarray):
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algo = Cartoonizer(dataroot='DCT-Net/damo/cv_unet_person-image-cartoon_compound-models')
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model_out = anime_transfer.cartoonize(img).astype(np.uint8)
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model_out = algo.cartoonize(img).astype(np.uint8)
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return cv2.cvtColor(model_out, cv2.COLOR_BGR2RGB)
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return cv2.cvtColor(model_out, cv2.COLOR_BGR2RGB)
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def validate(test_set, anime_faces_set, metric='correlation'):
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def similarity_to_anime(source_image, anime_faces_set, debug=False):
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try:
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source_face_bbox = find_face_bbox(source_image)
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except ValueError:
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return None
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source_anime = transfer_to_anime(source_image)
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source_face_anime = crop_face(source_anime, source_face_bbox)
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if debug:
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source_image_with_box = source_image.copy()
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x, y, w, h = source_face_bbox
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cv2.rectangle(source_image_with_box, (x, y), (x + w, y + h), (255, 0, 0), 2)
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plt.figure(figsize=[12, 4])
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plt.subplot(131)
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plt.imshow(source_image_with_box)
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plt.subplot(132)
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plt.imshow(source_anime)
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plt.subplot(133)
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plt.imshow(source_face_anime)
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plt.show()
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return compare_with_anime_characters(source_face_anime, anime_faces_set, verbose=debug)
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def validate(test_set, anime_faces_set):
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all_entries = len(test_set['values'])
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all_entries = len(test_set['values'])
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correct = 0
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accuracy = AccuracyGatherer(all_entries)
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for test_image, test_label in zip(test_set['values'], test_set['labels']):
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for test_image, test_label in zip(test_set['values'], test_set['labels']):
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output = get_top_results(compare_with_anime_characters(test_image, anime_faces_set), metric)[0]['name']
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test_results = similarity_to_anime(test_image, anime_faces_set)
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if output == test_label:
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correct += 1
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accuracy = correct / all_entries
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if test_results is None:
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print(f'Accuracy using {metric}: {accuracy * 100}%')
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print(f"cannot find face for {test_label}")
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return accuracy
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all_entries -= 1
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continue
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accuracy.for_results(test_results, test_label)
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accuracy.count = all_entries
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accuracy.print()
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if __name__ == '__main__':
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def main():
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parser = argparse.ArgumentParser()
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parser = argparse.ArgumentParser()
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parser.add_argument('-v', '--validate_only')
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parser.add_argument('-v', '--validate_only')
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args = parser.parse_args()
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args = parser.parse_args()
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anime_faces_set = load_data('data/images', (256, 256))
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anime_faces_set = load_data('data/croped_anime_faces')
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if args.validate_only:
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if args.validate_only:
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print('Validating')
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print('Validating')
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test_set = load_data('test_set')
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test_set = load_data('test_set')
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validate(test_set, anime_faces_set, 'structural-similarity')
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validate(test_set, anime_faces_set)
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validate(test_set, anime_faces_set, 'euclidean-distance')
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validate(test_set, anime_faces_set, 'chi-square')
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validate(test_set, anime_faces_set, 'correlation')
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validate(test_set, anime_faces_set, 'intersection')
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validate(test_set, anime_faces_set, 'bhattacharyya-distance')
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exit(0)
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exit(0)
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source = load_source('UAM-Andre.jpg')
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source = load_source('test_set/Ayanokouji, Kiyotaka.jpg')
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source_anime = transfer_to_anime(source)
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results = similarity_to_anime(source, anime_faces_set)
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source_face_anime = find_and_crop_face(source_anime)
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method = 'correlation'
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results = compare_with_anime_characters(source_face_anime, anime_faces_set)
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method = 'structural-similarity'
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top_results = get_top_results(results, count=4, metric=method)
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top_results = get_top_results(results, count=4, metric=method)
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print(top_results)
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print(top_results)
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plot_results(source, source_anime, top_results, anime_faces_set, method)
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plot_results(source, transfer_to_anime(source), top_results, anime_faces_set, method)
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if __name__ == '__main__':
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main()
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@ -40,3 +40,42 @@ def euclidean_distance(data_a: np.ndarray, data_b: np.ndarray) -> float:
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result += (histogram_a[i] - histogram_b[i]) ** 2
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result += (histogram_a[i] - histogram_b[i]) ** 2
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i += 1
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i += 1
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return result[0] ** (1 / 2)
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return result[0] ** (1 / 2)
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def get_top_results(all_metrics: list[dict], metric='correlation', count=1):
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all_metrics.sort(reverse=True, key=lambda item: item['metrics'][metric])
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return list(map(lambda item: {'name': item['name'], 'score': item['metrics'][metric]}, all_metrics[:count]))
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class AccuracyGatherer:
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all_metric_names = [
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'structural-similarity',
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'euclidean-distance',
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'chi-square',
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'correlation',
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'intersection',
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'bhattacharyya-distance'
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]
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def __init__(self, count, top_ks=(1, 3, 5)):
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self.top_ks = top_ks
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self.hits = {k: {metric: 0 for metric in AccuracyGatherer.all_metric_names} for k in top_ks}
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self.count = count
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def print(self):
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for k in self.top_ks:
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all_metrics = {metric: self.hits[k][metric] / self.count for metric in AccuracyGatherer.all_metric_names}
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print(f'Top {k} matches results:')
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[print(f'\t{key}: {value * 100}%') for key, value in all_metrics.items()]
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def for_results(self, results, test_label):
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top_results_all_metrics = {
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k: {m: get_top_results(results, m, k) for m in AccuracyGatherer.all_metric_names} for k in self.top_ks
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}
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for metric_name in AccuracyGatherer.all_metric_names:
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self.add_if_hit(top_results_all_metrics, test_label, metric_name)
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def add_if_hit(self, results, test_label, metric_name):
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for k in self.top_ks:
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if any(map(lambda single_result: single_result['name'] == test_label, results[k][metric_name])):
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self.hits[k][metric_name] += 1
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@ -9,3 +9,5 @@ opencv-python==4.7.0.68
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torch==1.13.1
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torch==1.13.1
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matplotlib==3.6.3
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matplotlib==3.6.3
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scikit-image==0.19.3
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scikit-image==0.19.3
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yoloface==0.0.4
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ipython==8.9.0
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Block a user