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import argparse
import subprocess
import os
import glob
from tqdm import tqdm
from concurrent.futures import ThreadPoolExecutor, as_completed
import threading
def extract_video_info_split(input_file):
filename = os.path.splitext(os.path.basename(input_file))[0]
parts = filename.split('_')
start_frame = int(parts[-2])
end_frame = int(parts[-1])
# video_id = filename.replace(f"_{parts[-1]}", "").replace(f"_{parts[-2]}", "")
video_id = filename
return video_id, start_frame, end_frame
# if len(parts) == 3:
# video_id = parts[0]
# start_frame = int(parts[1])
# end_frame = int(parts[2])
# return video_id, start_frame, end_frame
# else:
# raise ValueError(f"文件名格式不匹配,期望3个部分,实际得到{len(parts)}个: {filename}")
def check_segments_exist(video_id, start_frame, total_frames, output_dir, frames_per_segment):
"""
检查该视频的所有片段是否已存在
Returns:
bool: True表示所有片段都存在,False表示有片段缺失
list: 缺失的片段文件名列表
"""
missing_segments = []
current_frame = start_frame
while current_frame < start_frame + total_frames:
segment_end_frame = min(current_frame + frames_per_segment - 1, start_frame + total_frames - 1)
output_filename = f"{video_id}_{current_frame:07d}_{(segment_end_frame+1):07d}.mp4"
output_file = os.path.join(output_dir, output_filename)
if not os.path.exists(output_file):
missing_segments.append(output_filename)
current_frame = segment_end_frame + 1
return len(missing_segments) == 0, missing_segments
def process_single_video(input_file, output_dir, frames_per_segment=386, skip_existing=True):
try:
video_id, start_frame, original_end_frame = extract_video_info_split(input_file)
# 获取帧率
result = subprocess.run([
'ffprobe', '-v', 'quiet', '-select_streams', 'v:0',
'-show_entries', 'stream=r_frame_rate', '-of', 'csv=p=0', input_file
], capture_output=True, text=True)
frame_rate_str = result.stdout.strip()
if frame_rate_str and '/' in frame_rate_str:
frame_rate = eval(frame_rate_str)
else:
frame_rate = 30.0
# 获取总帧数
result = subprocess.run([
'ffprobe', '-v', 'quiet', '-select_streams', 'v:0',
'-show_entries', 'stream=nb_frames', '-of', 'csv=p=0', input_file
], capture_output=True, text=True)
total_frames = int(result.stdout.strip())
# 检查文件是否已存在
if skip_existing:
all_exist, missing_segments = check_segments_exist(
video_id, start_frame, total_frames, output_dir, frames_per_segment
)
thread_id = threading.current_thread().name
if all_exist:
# 计算应该有多少个片段
expected_segments = 0
current_frame = start_frame
while current_frame < start_frame + total_frames:
expected_segments += 1
segment_end_frame = min(current_frame + frames_per_segment - 1, start_frame + total_frames - 1)
current_frame = segment_end_frame + 1
print(f"[{thread_id}] 跳过文件: {os.path.basename(input_file)} - 所有{expected_segments}个片段已存在")
return True, expected_segments, os.path.basename(input_file), True # 最后一个参数表示是否跳过
else:
print(f"[{thread_id}] 处理文件: {os.path.basename(input_file)} - 缺失{len(missing_segments)}个片段")
current_frame = start_frame
# 使用线程安全的打印
thread_id = threading.current_thread().name
if not skip_existing or not all_exist:
print(f"[{thread_id}] 原视频片段: 第{start_frame}帧 到 第{original_end_frame}帧")
print(f"[{thread_id}] 文件总帧数: {total_frames}")
segment_index = 0
processed_segments = 0
while current_frame < start_frame + total_frames:
segment_end_frame = min(current_frame + frames_per_segment - 1, start_frame + total_frames - 1)
output_filename = f"{video_id}_{current_frame:07d}_{(segment_end_frame + 1):07d}.mp4"
output_file = os.path.join(output_dir, output_filename)
if skip_existing and os.path.exists(output_file):
print(f"[{thread_id}] 跳过片段: {output_filename} (已存在)")
pass
else:
start_time = (current_frame - start_frame) / frame_rate
# 修改这里:直接使用帧数计算,确保精确
actual_frames = segment_end_frame - current_frame + 1
duration = actual_frames / frame_rate
# 使用更精确的FFmpeg命令
# subprocess.run([
# 'ffmpeg', '-ss', str(start_time), '-i', input_file,
# '-frames:v', str(actual_frames),
# '-c:v', 'libx264', '-crf', '0', # 无损编码
# '-preset', 'ultrafast', # 快速编码
# '-c:a', 'copy',
# output_file, '-y'
# ], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
subprocess.run([
'ffmpeg', '-ss', str(start_time), '-i', input_file,
'-t', str(duration),
'-c', 'copy', # 直接拷贝,不重编码
output_file, '-y'
], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
print(f"[{thread_id}] 生成片段: {output_filename} ({actual_frames}帧)")
processed_segments += 1
current_frame = segment_end_frame + 1
segment_index += 1
if not skip_existing or not all_exist:
if processed_segments > 0:
print(f"[{thread_id}] 完成: {os.path.basename(input_file)} - 新生成{processed_segments}个片段")
else:
print(f"[{thread_id}] 完成: {os.path.basename(input_file)} - 所有片段都已存在")
return True, segment_index, os.path.basename(input_file), False
except Exception as e:
thread_id = threading.current_thread().name
print(f"[{thread_id}] 处理文件 {input_file} 时出错: {str(e)}")
return False, 0, os.path.basename(input_file), False
def batch_process_videos(input_folder, output_dir, frames_per_segment=386, max_workers=4,
skip_existing=True, cur_part=None, total_part=None):
"""
多线程批量处理视频
Args:
input_folder: 输入文件夹路径
output_dir: 输出目录
frames_per_segment: 每个片段的帧数
max_workers: 最大线程数,建议设置为CPU核心数的1-2倍
skip_existing: 是否跳过已存在的文件
cur_part: 当前处理的部分 (1-based, 从1开始)
total_part: 总共分割的部分数
"""
# 创建输出目录
os.makedirs(output_dir, exist_ok=True)
# 查找所有mp4文件
video_files = glob.glob(os.path.join(input_folder, "*.mp4"))
if not video_files:
print(f"在目录 {input_folder} 中未找到mp4文件")
return
# 对视频文件进行排序,确保分割结果的一致性
video_files.sort()
# 如果指定了分割参数,则对视频文件列表进行分割
if cur_part is not None and total_part is not None:
if not (1 <= cur_part <= total_part):
raise ValueError(f"cur_part ({cur_part}) 必须在 1 到 {total_part} 之间")
total_videos = len(video_files)
videos_per_part = total_videos // total_part
remainder = total_videos % total_part
# 计算当前部分的起始和结束索引
if cur_part <= remainder:
# 前remainder个部分每个多分配1个文件
start_idx = (cur_part - 1) * (videos_per_part + 1)
end_idx = start_idx + videos_per_part + 1
else:
# 后面的部分按标准数量分配
start_idx = remainder * (videos_per_part + 1) + (cur_part - remainder - 1) * videos_per_part
end_idx = start_idx + videos_per_part
video_files = video_files[start_idx:end_idx]
print(f"分割处理模式: 第 {cur_part} 部分 / 共 {total_part} 部分")
print(f"原始视频总数: {total_videos}")
print(f"当前部分处理: {len(video_files)} 个视频 (索引 {start_idx} 到 {end_idx-1})")
if not video_files:
print("当前部分没有需要处理的视频文件")
return
print(f"找到 {len(video_files)} 个视频文件")
print(f"输出目录: {output_dir}")
print(f"使用 {max_workers} 个线程进行处理")
print(f"跳过已存在文件: {'是' if skip_existing else '否'}")
total_segments = 0
success_count = 0
skipped_count = 0
failed_files = []
# 使用ThreadPoolExecutor进行多线程处理
with ThreadPoolExecutor(max_workers=max_workers) as executor:
# 提交所有任务
future_to_file = {
executor.submit(process_single_video, video_file, output_dir, frames_per_segment, skip_existing): video_file
for video_file in video_files
}
# 使用tqdm显示进度条
progress_desc = "处理进度"
if cur_part is not None and total_part is not None:
progress_desc = f"处理进度 ({cur_part}/{total_part})"
with tqdm(total=len(video_files), desc=progress_desc) as pbar:
for future in as_completed(future_to_file):
video_file = future_to_file[future]
try:
success, segments, filename, was_skipped = future.result()
if success:
success_count += 1
total_segments += segments
if was_skipped:
skipped_count += 1
else:
failed_files.append(filename)
except Exception as exc:
print(f'视频文件 {video_file} 处理时发生异常: {exc}')
failed_files.append(os.path.basename(video_file))
finally:
pbar.update(1)
print(f"\n批量处理完成!")
if cur_part is not None and total_part is not None:
print(f"当前部分 ({cur_part}/{total_part}) 处理结果:")
print(f"成功处理: {success_count}/{len(video_files)} 个视频")
print(f"跳过文件: {skipped_count} 个视频 (所有片段已存在)")
print(f"实际处理: {success_count - skipped_count} 个视频")
print(f"总共生成: {total_segments} 个片段")
if failed_files:
print(f"处理失败的文件: {failed_files}")
def main():
parser = argparse.ArgumentParser(description='批量处理视频文件,提取帧并分段保存')
parser.add_argument('--input_folder', type=str, default="./", help='输入文件夹路径')
parser.add_argument('--output_dir', type=str, default="./dummy_segments_33", help='输出目录路径')
parser.add_argument('--frames-per-segment', type=int, default=193, help='每段的帧数')
parser.add_argument('--max-workers', type=int, default=8, help='线程数')
parser.add_argument('--skip-existing', action='store_true', default=True, help='跳过已存在的文件')
parser.add_argument('--no-skip-existing', dest='skip_existing', action='store_false', help='强制重新处理')
parser.add_argument('--cur-part', type=int, default=1, help='当前处理的部分')
parser.add_argument('--total-part', type=int, default=1, help='总共分成几部分')
args = parser.parse_args()
batch_process_videos(
input_folder=args.input_folder,
output_dir=args.output_dir,
frames_per_segment=args.frames_per_segment,
max_workers=args.max_workers,
skip_existing=args.skip_existing,
cur_part=args.cur_part,
total_part=args.total_part
)
if __name__ == "__main__":
main() |