from typing import Any, List, Literal from argparse import ArgumentParser import cv2 import numpy import facefusion.globals import facefusion.processors.frame.core as frame_processors from facefusion import wording from facefusion.face_analyser import get_one_face, get_many_faces, find_similar_faces, clear_face_analyser from facefusion.face_reference import get_face_reference from facefusion.content_analyser import clear_content_analyser from facefusion.typing import Face, Frame, Update_Process, ProcessMode from facefusion.vision import read_image, read_static_image, write_image from facefusion.face_helper import warp_face, create_static_mask_frame from facefusion.processors.frame import globals as frame_processors_globals, choices as frame_processors_choices NAME = 'FACEFUSION.FRAME_PROCESSOR.FACE_DEBUGGER' def get_frame_processor() -> None: pass def clear_frame_processor() -> None: pass def get_options(key : Literal['model']) -> None: pass def set_options(key : Literal['model'], value : Any) -> None: pass def register_args(program : ArgumentParser) -> None: program.add_argument('--face-debugger-items', help = wording.get('face_debugger_items_help'), dest = 'face_debugger_items', default = [ 'kps', 'face-mask' ], choices = frame_processors_choices.face_debugger_items, nargs = '+') def apply_args(program : ArgumentParser) -> None: args = program.parse_args() frame_processors_globals.face_debugger_items = args.face_debugger_items def pre_check() -> bool: return True def pre_process(mode : ProcessMode) -> bool: return True def post_process() -> None: clear_frame_processor() clear_face_analyser() clear_content_analyser() def debug_face(source_face : Face, target_face : Face, temp_frame : Frame) -> Frame: primary_color = (0, 0, 255) secondary_color = (0, 255, 0) bounding_box = target_face.bbox.astype(numpy.int32) if 'bbox' in frame_processors_globals.face_debugger_items: cv2.rectangle(temp_frame, (bounding_box[0], bounding_box[1]), (bounding_box[2], bounding_box[3]), secondary_color, 2) if 'face-mask' in frame_processors_globals.face_debugger_items: crop_frame, affine_matrix = warp_face(temp_frame, target_face.kps, 'arcface_v2', (128, 128)) inverse_matrix = cv2.invertAffineTransform(affine_matrix) temp_frame_size = temp_frame.shape[:2][::-1] mask_frame = create_static_mask_frame(crop_frame.shape[:2], 0, facefusion.globals.face_mask_padding) mask_frame[mask_frame > 0] = 255 inverse_mask_frame = cv2.warpAffine(mask_frame.astype(numpy.uint8), inverse_matrix, temp_frame_size) inverse_mask_contours = cv2.findContours(inverse_mask_frame, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)[0] cv2.drawContours(temp_frame, inverse_mask_contours, 0, primary_color, 2) if bounding_box[3] - bounding_box[1] > 60 and bounding_box[2] - bounding_box[0] > 60: if 'kps' in frame_processors_globals.face_debugger_items: kps = target_face.kps.astype(numpy.int32) for index in range(kps.shape[0]): cv2.circle(temp_frame, (kps[index][0], kps[index][1]), 3, primary_color, -1) if 'score' in frame_processors_globals.face_debugger_items: score_text = str(round(target_face.score, 2)) score_position = (bounding_box[0] + 10, bounding_box[1] + 20) cv2.putText(temp_frame, score_text, score_position, cv2.FONT_HERSHEY_SIMPLEX, 0.5, secondary_color, 2) return temp_frame def process_frame(source_face : Face, reference_face : Face, temp_frame : Frame) -> Frame: if 'reference' in facefusion.globals.face_selector_mode: similar_faces = find_similar_faces(temp_frame, reference_face, facefusion.globals.reference_face_distance) if similar_faces: for similar_face in similar_faces: temp_frame = debug_face(source_face, similar_face, temp_frame) if 'one' in facefusion.globals.face_selector_mode: target_face = get_one_face(temp_frame) if target_face: temp_frame = debug_face(source_face, target_face, temp_frame) if 'many' in facefusion.globals.face_selector_mode: many_faces = get_many_faces(temp_frame) if many_faces: for target_face in many_faces: temp_frame = debug_face(source_face, target_face, temp_frame) return temp_frame def process_frames(source_path : str, temp_frame_paths : List[str], update_progress : Update_Process) -> None: source_face = get_one_face(read_static_image(source_path)) reference_face = get_face_reference() if 'reference' in facefusion.globals.face_selector_mode else None for temp_frame_path in temp_frame_paths: temp_frame = read_image(temp_frame_path) result_frame = process_frame(source_face, reference_face, temp_frame) write_image(temp_frame_path, result_frame) update_progress() def process_image(source_path : str, target_path : str, output_path : str) -> None: source_face = get_one_face(read_static_image(source_path)) target_frame = read_static_image(target_path) reference_face = get_one_face(target_frame, facefusion.globals.reference_face_position) if 'reference' in facefusion.globals.face_selector_mode else None result_frame = process_frame(source_face, reference_face, target_frame) write_image(output_path, result_frame) def process_video(source_path : str, temp_frame_paths : List[str]) -> None: frame_processors.multi_process_frames(source_path, temp_frame_paths, process_frames)