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import os
import importlib
import psutil
from concurrent.futures import ThreadPoolExecutor, as_completed
from queue import Queue
from types import ModuleType
from typing import Any, List, Callable
from tqdm import tqdm
import roop
FRAME_PROCESSORS_MODULES: List[ModuleType] = []
FRAME_PROCESSORS_INTERFACE = [
'pre_check',
'pre_start',
'process_frame',
'process_frames',
'process_image',
'process_video',
'post_process'
]
def load_frame_processor_module(frame_processor: str) -> Any:
try:
frame_processor_module = importlib.import_module(f'roop.processors.frame.{frame_processor}')
for method_name in FRAME_PROCESSORS_INTERFACE:
if not hasattr(frame_processor_module, method_name):
raise NotImplementedError
except (ImportError, NotImplementedError):
quit(f'Frame processor {frame_processor} crashed.')
return frame_processor_module
def get_frame_processors_modules(frame_processors: List[str]) -> List[ModuleType]:
global FRAME_PROCESSORS_MODULES
for frame_processor in frame_processors:
found = False
for frame_processor_module in FRAME_PROCESSORS_MODULES:
if frame_processor_module.frame_name == frame_processor:
found = True
break
if not found:
frame_processor_module = load_frame_processor_module(frame_processor)
FRAME_PROCESSORS_MODULES.append(frame_processor_module)
# if not FRAME_PROCESSORS_MODULES:
return FRAME_PROCESSORS_MODULES
def multi_process_frame(source_path: str, temp_frame_paths: List[str], process_frames: Callable[[str, List[str], Any], None], update: Callable[[], None]) -> None:
with ThreadPoolExecutor(max_workers=roop.globals.execution_threads) as executor:
futures = []
queue = create_queue(temp_frame_paths)
queue_per_future = len(temp_frame_paths) // roop.globals.execution_threads
while not queue.empty():
future = executor.submit(process_frames, source_path, pick_queue(queue, queue_per_future), update)
futures.append(future)
for future in as_completed(futures):
future.result()
def create_queue(temp_frame_paths: List[str]) -> Queue[str]:
queue: Queue[str] = Queue()
for frame_path in temp_frame_paths:
queue.put(frame_path)
return queue
def pick_queue(queue: Queue[str], queue_per_future: int) -> List[str]:
queues = []
for _ in range(queue_per_future):
if not queue.empty():
queues.append(queue.get())
return queues
def process_video(source_path: str, frame_paths: list[str], process_frames: Callable[[str, List[str], Any], None]) -> None:
progress_bar_format = '{l_bar}{bar}| {n_fmt}/{total_fmt} [{elapsed}<{remaining}, {rate_fmt}{postfix}]'
total = len(frame_paths)
with tqdm(total=total, desc='Processing', unit='frame', dynamic_ncols=True, bar_format=progress_bar_format) as progress:
multi_process_frame(source_path, frame_paths, process_frames, lambda: update_progress(progress))
def update_progress(progress: Any = None) -> None:
process = psutil.Process(os.getpid())
memory_usage = process.memory_info().rss / 1024 / 1024 / 1024
progress.set_postfix({
'memory_usage': '{:.2f}'.format(memory_usage).zfill(5) + 'GB',
'execution_providers': roop.globals.execution_providers,
'execution_threads': roop.globals.execution_threads
})
progress.refresh()
progress.update(1)
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