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import torch
import torch.nn as nn
import logging
logger = logging.getLogger(__name__)
_rank_env = os.environ.get("RANK") or os.environ.get("LOCAL_RANK") or os.environ.get("ACCELERATE_PROCESS_INDEX") or "0"
_rank = int(str(_rank_env))
_level = logging.INFO if _rank == 0 else logging.WARNING
logging.basicConfig(
level=_level,
format="%(asctime)s [%(levelname)s] %(name)s: %(message)s",
datefmt="%Y-%m-%d %H:%M:%S",
force=True,
)
logger.setLevel(_level)
current_file_abs = os.path.abspath(__file__)
project_root = os.path.dirname(os.path.dirname(os.path.dirname(current_file_abs)))
if project_root not in sys.path:
sys.path.insert(0, project_root)
from src.model_training.transformers_compat import patch_transformers_hybrid_cache
patch_transformers_hybrid_cache()
from diffsynth.trainers.utils import VideoDataset, CamVideoDataset, wan_parser
import diffsynth.trainers.utils as utils_module
utils_file = utils_module.__file__
if 'site-packages' in utils_file:
logger.warning(f"Using INSTALLED diffsynth package from: {utils_file}")
else:
logger.info(f"[VERIFIED] Using LOCAL diffsynth code from: {utils_file}")
import random
import numpy as np
os.environ["TOKENIZERS_PARALLELISM"] = "false"
from safetensors.torch import load_file as safe_load_file
from src.model_training.fov_retrieval import setup_fov_retriever_for_training
from src.model_training.training_modules import DiTBlock_w_Action, WanTrainingModule
def set_seed(seed=42):
"""Set random seeds for reproducible training."""
random.seed(seed)
np.random.seed(seed)
torch.manual_seed(seed)
torch.cuda.manual_seed(seed)
torch.cuda.manual_seed_all(seed)
torch.backends.cudnn.deterministic = True
torch.backends.cudnn.benchmark = False
os.environ['PYTHONHASHSEED'] = str(seed)
os.environ['CUBLAS_WORKSPACE_CONFIG'] = ':4096:8'
logger.info(f"Random seed set to {seed}")
def _log_dit_freeze_summary(dit: torch.nn.Module) -> None:
by_module: dict[str, tuple[int, bool]] = {}
for name, p in dit.named_parameters():
numel = p.numel()
trainable = p.requires_grad
parts = name.split(".")
prefix = ".".join(parts[:-1]) if len(parts) > 1 else name
if prefix not in by_module:
by_module[prefix] = (0, False)
prev_numel, prev_trainable = by_module[prefix]
by_module[prefix] = (prev_numel + numel, prev_trainable or trainable)
trainable_list = [(k, v[0]) for k, v in by_module.items() if v[1]]
frozen_list = [(k, v[0]) for k, v in by_module.items() if not v[1]]
trainable_list.sort(key=lambda x: x[0])
frozen_list.sort(key=lambda x: x[0])
total_trainable = sum(n for _, n in trainable_list)
total_frozen = sum(n for _, n in frozen_list)
examples = ", ".join(name for name, _ in trainable_list[:8])
logger.info(
f"[DiT freeze] trainable={total_trainable:,} ({len(trainable_list)} groups), "
f"frozen={total_frozen:,} ({len(frozen_list)} groups), examples=[{examples}]"
)
set_seed(42)
from src.model_training.training_modules.model_logger import ModelLogger
from src.model_training.training_modules.training_loop import launch_training_task
if __name__ == "__main__":
parser = wan_parser()
def _add_arg_if_missing(*args, **kwargs):
if args and args[0] in parser._option_string_actions:
return
parser.add_argument(*args, **kwargs)
for name, kwargs in [
("--tokenizer_path", dict(type=str, default=None, help="Local tokenizer path.")),
("--wandb_run_name", dict(type=str, default=None)),
("--ckpt_interval", dict(type=int, default=None)),
("--trainable_dit_modules", dict(type=str, default=None, help="Comma-separated DiT modules to unfreeze.")),
("--num_workers", dict(type=int, default=0, help="DataLoader workers.")),
("--max_train_steps", dict(type=int, default=0, help="Stop after N optimizer steps.")),
("--progress_total_steps", dict(type=int, default=0, help="tqdm total steps override.")),
("--resume_from_checkpoint", dict(type=str, default=None)),
("--context_memory_frames", dict(type=int, default=8)),
("--training_mode", dict(type=str, default="predict", choices=["predict", "context", "condition"])),
("--context_drop_prob", dict(type=float, default=0.0)),
("--retrieval_method", dict(type=str, default="fov", choices=["fov", "latent_sim"])),
("--latent_retrieval_dir", dict(type=str, default=None)),
("--fov_top_k", dict(type=int, default=4)),
("--context_attention_weight", dict(type=float, default=1.0)),
("--context_temporal_decay", dict(type=float, default=1.0)),
("--spike_threshold", dict(type=float, default=5.0)),
("--spatial_memory_tokens", dict(type=int, default=64)),
("--spatial_memory_grid", dict(type=int, default=8)),
("--spatial_memory_inject_mode", dict(type=str, default="concat_text", choices=["concat_text", "none", "cross_attn_readout"])),
("--framepack_ratio", dict(type=int, default=2)),
("--framepack_length_strategy", dict(type=str, default="distance_merge", choices=["distance_merge", "mean", "uniform", "recent_weighted", "weighted_recent", "packed_multiscale"])),
("--framepack_recent_keep_ratio", dict(type=float, default=0.5)),
("--framepack_multiscale_w2", dict(type=float, default=0.25)),
("--framepack_multiscale_w4", dict(type=float, default=0.15)),
("--context_source", dict(type=str, default="fov", choices=["fov", "replay", "prev_chunk_tail"])),
("--ssm_num_blocks_hint", dict(type=int, default=21)),
("--ssm_every_n_blocks", dict(type=int, default=4)),
("--videossm_kernel_size", dict(type=int, default=3)),
("--videossm_expand", dict(type=int, default=2)),
("--videossm_every_n_blocks", dict(type=int, default=4)),
("--sampling_interval_steps", dict(type=int, default=0)),
("--sampling_negative_prompt", dict(type=str, default="oversaturated colors, overexposed, static, blurry details")),
("--sampling_height", dict(type=int, default=352)),
("--sampling_width", dict(type=int, default=640)),
("--sampling_num_frames", dict(type=int, default=81)),
("--sampling_num_inference_steps", dict(type=int, default=50)),
("--sampling_action_path", dict(type=str, default=None)),
("--sampling_two_chunk_action_path", dict(type=str, default=None)),
("--sampling_eval_dataset_base", dict(type=str, default=None)),
("--sampling_eval_metadata_path", dict(type=str, default=None)),
("--samples_per_epoch", dict(type=int, default=0)),
("--camera_encoder_scale", dict(type=float, default=1.0)),
("--camera_inject_mode", dict(type=str, default="post", choices=["post", "pre_norm", "pre_qkv", "pre_qkv_post", "pre_modulate", "pre_qkv_gated"])),
]:
_add_arg_if_missing(name, **kwargs)
for name in [
"--save_full_model", "--add_action_attn", "--action_use_temporal_attention",
"--action_inject_after_spatial_attn", "--use_camera_encoder", "--camera_encoder_shallow",
"--camera_encoder_separate_t_r", "--camera_encoder_explicit_yaw", "--yaw_flip_aug",
"--camera_encoder_sincos_yaw", "--camera_encoder_r_mlp_no_layernorm",
"--add_camera_outside_gate", "--no_camera_encoder_zero_init",
"--camera_encoder_full_zero_init", "--enable_context_memory", "--context_per_frame_vae",
"--cfg_target_only", "--enable_fov_retrieval", "--use_rt_relative",
"--strict_overlap_context", "--use_anchor_frame", "--use_spatial_memory",
"--use_spatial_memory_legacy", "--use_framepack_memory", "--use_framepack_length_compress",
"--use_block_wise_ssm", "--use_videossm_hybrid", "--sampling_two_chunk_memory",
]:
_add_arg_if_missing(name, action="store_true")
for name, kwargs in [
("--per_device_train_batch_size", dict(type=int, default=None)),
("--timestep_shift", dict(type=float, default=1.0)),
("--action_base_path", dict(type=str, default=None)),
("--ckpt_path", dict(type=str, default=None)),
("--cam_position_scale", dict(type=float, default=0.01)),
("--resume_from", dict(type=str, default=None)),
("--verify_ckpt_step", dict(type=int, default=0)),
("--verify_high_noise_first_steps", dict(type=int, default=0)),
("--moc_temperature", dict(type=float, default=1.0)),
("--moc_top_k", dict(type=int, default=0)),
("--prev_chunk_frames", dict(type=int, default=81)),
("--implicit_type", dict(type=str, default="summary")),
("--context_compressor_ratio", dict(type=int, default=2)),
("--episodic_buffer_size", dict(type=int, default=0)),
("--episodic_replay_interval", dict(type=int, default=0)),
("--episodic_replay_weight", dict(type=float, default=0.0)),
]:
_add_arg_if_missing(name, **kwargs)
for name in [
"--enable_video_sampling", "--sampling_atomic_left_right", "--sampling_four_prompts",
"--sampling_two_prompts", "--train_action_module", "--train_cam_pose",
"--action_module_only", "--use_moc", "--unified_implicit", "--use_implicit_memory",
"--use_memory_v2v_compressor", "--use_slow_fast_memory", "--use_entity_memory",
"--use_episodic_memory",
]:
_add_arg_if_missing(name, action="store_true")
args = parser.parse_args()
def _arg(name, default=None):
return getattr(args, name, default)
def _normalize_and_validate_args():
# Backward-compat mappings
if _arg("per_device_train_batch_size", None) is None:
args.per_device_train_batch_size = int(_arg("batch_size", 1))
if _arg("sampling_atomic_left_right", False) and not _arg("sampling_two_chunk_memory", False):
# Legacy monitor intent maps to current two-chunk monitor.
args.sampling_two_chunk_memory = True
if _arg("enable_video_sampling", False) and int(_arg("sampling_interval_steps", 0)) <= 0:
args.sampling_interval_steps = 1000
# Keep paper-style block-wise SSM and legacy VideoSSM hybrid explicitly separated.
if _arg("use_block_wise_ssm", False) and _arg("use_videossm_hybrid", False):
raise ValueError(
"--use_block_wise_ssm and --use_videossm_hybrid are mutually exclusive; "
"use block-wise SSM for paper-aligned runs or VideoSSM hybrid for legacy baselines."
)
# Explicit retrieval strategy visibility: default fov, latent_sim degrades to fov when cache dir is absent.
if _arg("retrieval_method", "fov") == "latent_sim":
if not _arg("latent_retrieval_dir", None):
logger.warning("retrieval_method=latent_sim but latent_retrieval_dir is empty; runtime will fallback to fov retrieval.")
else:
logger.info(f"retrieval_method=latent_sim latent_retrieval_dir={args.latent_retrieval_dir}")
else:
logger.info("retrieval_method=fov")
# 2-chunk sampling defaults: keep left/right_45 semantics compatible with existing shell wrappers.
if _arg("sampling_two_chunk_action_path", None) in (None, ""):
args.sampling_two_chunk_action_path = _arg("sampling_action_path", None)
_normalize_and_validate_args()
resume_step_count = 0
if args.resume_from_checkpoint is not None:
if (_arg('trainable_dit_modules', None) or "").strip() or _arg('resume_weights_only', False):
logger.info("resume_from_checkpoint used for weights only (trainable_dit_modules set or resume_weights_only), step count starts from 0, no skip data")
resume_step_count = 0
else:
checkpoint_filename = os.path.basename(args.resume_from_checkpoint)
step_match = re.search(r'Step-(\d+)', checkpoint_filename)
epoch_match = re.search(r'epoch-(\d+)', checkpoint_filename)
if step_match:
resume_step_count = int(step_match.group(1))
logger.info(f"Resuming from step {resume_step_count} (extracted from checkpoint filename)")
elif epoch_match:
logger.info(f"Resuming from epoch checkpoint (epoch-{epoch_match.group(1)}), step count will start from 0")
resume_step_count = 0
else:
logger.warning("Could not extract step count from checkpoint filename, starting from step 0")
set_seed(42)
args.enable_icl = False
args.icl_num_examples = 2
args.icl_context_frames = 8
if _arg('train_cam_pose', False):
dataset = CamVideoDataset(args=args)
else:
dataset = VideoDataset(args=args, action_base_path=args.action_base_path)
def _log_dataset_validation(ds):
ds_size = len(ds)
ds_repeat = _arg('dataset_repeat', 1)
logger.info(
f"[Dataset] size={ds_size}, repeat={ds_repeat}, "
f"epochs={args.num_epochs}, total_samples={ds_size * ds_repeat * args.num_epochs}"
)
_log_dataset_validation(dataset)
model = WanTrainingModule(
model_paths=args.model_paths,
model_id_with_origin_paths=args.model_id_with_origin_paths,
tokenizer_path=_arg('tokenizer_path', None),
trainable_models=_arg('trainable_models', None),
lora_base_model=args.lora_base_model,
lora_target_modules=args.lora_target_modules,
lora_rank=args.lora_rank,
use_gradient_checkpointing_offload=args.use_gradient_checkpointing_offload,
extra_inputs=args.extra_inputs,
resume_from_checkpoint=args.resume_from_checkpoint,
dataset_base_path=_arg('dataset_base_path', None),
enable_context_memory=_arg('enable_context_memory', False),
context_drop_prob=_arg('context_drop_prob', 0.0),
context_drop_seed=42,
omit_context_actions=_arg('omit_context_actions', False) or (_arg('context_memory_frames', 8) == 1), # ctx=1: no context action injection
context_noise_prob=_arg('context_noise_prob', 0.0),
context_noise_std=_arg('context_noise_std', 0.02),
context_fixed_noise_std=_arg('context_fixed_noise_std', None),
context_memory_frames=_arg('context_memory_frames', 8),
context_per_frame_vae=_arg('context_per_frame_vae', False),
training_mode=_arg('training_mode', 'predict'),
teacher_forcing_prob=_arg('teacher_forcing_prob', 0.0),
yaw_flip_aug=_arg('yaw_flip_aug', False),
context_source=_arg('context_source', 'fov'),
use_framepack_memory=_arg('use_framepack_memory', False),
context_temporal_decay=_arg('context_temporal_decay', 1.0),
context_attention_weight=_arg('context_attention_weight', 1.0),
use_framepack_length_compress=_arg('use_framepack_length_compress', False),
framepack_ratio=_arg('framepack_ratio', 2),
framepack_length_strategy=_arg('framepack_length_strategy', 'distance_merge'),
framepack_recent_keep_ratio=_arg('framepack_recent_keep_ratio', 0.5),
framepack_multiscale_w2=_arg('framepack_multiscale_w2', 0.25),
framepack_multiscale_w4=_arg('framepack_multiscale_w4', 0.15),
use_spatial_memory=_arg('use_spatial_memory', False),
use_spatial_memory_legacy=_arg('use_spatial_memory_legacy', False),
spatial_memory_tokens=_arg('spatial_memory_tokens', 64),
spatial_memory_grid=_arg('spatial_memory_grid', 8),
spatial_memory_inject_mode=_arg('spatial_memory_inject_mode', 'concat_text'),
timestep_shift=float(_arg('timestep_shift', 1.0)),
)
# ── VWM-style: Replace DiT blocks with DiTBlock_w_Action ──
_use_cam_pose = bool(_arg('train_cam_pose', False))
if _arg('train_action_module', False) or _use_cam_pose:
dit = model.pipe.dit
old_blocks = dit.blocks
has_image_input = dit.has_image_input
dim = dit.dim
num_heads = dit.num_heads
ffn_dim = dit.ffn_dim
eps = 1e-6
block_dtype = next(old_blocks[0].parameters()).dtype
use_block_wise_ssm = bool(_arg('use_block_wise_ssm', False))
use_videossm_hybrid = bool(_arg('use_videossm_hybrid', False))
ssm_every_n = max(int(_arg('ssm_every_n_blocks', 4)), 1)
videossm_every_n = max(int(_arg('videossm_every_n_blocks', 4)), 1)
new_blocks = nn.ModuleList()
for block_id, old_block in enumerate(old_blocks):
attach_block_ssm = use_block_wise_ssm and (block_id % ssm_every_n == 0)
attach_videossm = use_videossm_hybrid and (block_id % videossm_every_n == 0)
new_block = DiTBlock_w_Action(
has_image_input=has_image_input,
dim=dim, num_heads=num_heads, ffn_dim=ffn_dim, eps=eps,
add_action_attn=_arg('add_action_attn', False),
action_use_temporal_attention=_arg('action_use_temporal_attention', False),
use_cam_pose=_use_cam_pose,
use_block_wise_ssm=attach_block_ssm,
use_videossm_hybrid=attach_videossm,
videossm_kernel_size=int(_arg('videossm_kernel_size', 3)),
videossm_expand=int(_arg('videossm_expand', 2)),
)
new_block = new_block.to(dtype=block_dtype, device=next(old_block.parameters()).device)
for attr in ("self_attn", "cross_attn", "norm1", "norm2", "norm3", "ffn"):
getattr(new_block, attr).load_state_dict(getattr(old_block, attr).state_dict())
with torch.no_grad():
new_block.modulation.copy_(old_block.modulation.to(dtype=block_dtype))
new_blocks.append(new_block)
dit.blocks = new_blocks
_mlp_type = "MLP_CamPose" if _use_cam_pose else "MLP_Action"
logger.info(f"[VWM-style] Replaced {len(new_blocks)} DiT blocks with DiTBlock_w_Action ({_mlp_type}, zero-init)")
if use_block_wise_ssm:
logger.info(f"[Block-wise SSM] attached to every {ssm_every_n} DiT block(s)")
if use_videossm_hybrid:
logger.info(f"[VideoSSM hybrid] attached to every {videossm_every_n} DiT block(s)")
device = next(dit.parameters()).device
_ckpt_path = _arg('ckpt_path', None) or _arg('resume_from_checkpoint', None)
if _ckpt_path is not None:
ckpt = safe_load_file(_ckpt_path)
missing, unexpected = dit.load_state_dict(ckpt, strict=False)
dit.to(device=device)
logger.info(f"[VWM-style] Loaded ckpt: {len(ckpt)} keys, missing={len(missing)}, unexpected={len(unexpected)}")
if _arg('action_module_only', False):
if _arg('add_action_attn', False):
for block in dit.blocks:
for name, param in block.named_parameters():
if ("action_mlp" in name) or ("self_attn_with_action" in name) or ("block_wise_ssm" in name) or ("videossm_hybrid" in name):
param.requires_grad = True
else:
param.requires_grad = False
else:
for block in dit.blocks:
for name, param in block.named_parameters():
if "action_mlp" in name or "self_attn" in name or "block_wise_ssm" in name or "videossm_hybrid" in name:
param.requires_grad = True
else:
param.requires_grad = False
else:
for block in dit.blocks:
for name, param in block.named_parameters():
if "action_mlp" in name or "self_attn_with_action" in name or "block_wise_ssm" in name or "videossm_hybrid" in name:
param.requires_grad = True
else:
param.requires_grad = False
_log_dit_freeze_summary(dit)
_resume_from = _arg('resume_from', None)
if _resume_from:
logger.info(f"Loading full resume checkpoint: {_resume_from}")
ckpt = safe_load_file(_resume_from)
model.pipe.dit.load_state_dict(ckpt, strict=False)
logger.info(f"Checkpoint loaded, resuming from step {resume_step_count}")
model_logger = ModelLogger(
args.output_path,
remove_prefix_in_ckpt=args.remove_prefix_in_ckpt,
wandb_run_name=args.wandb_run_name,
ckpt_interval=args.ckpt_interval,
resume_step_count=resume_step_count,
save_full_model=_arg('save_full_model', False),
context_drop_prob=float(_arg("context_drop_prob", 0.0)),
enable_video_sampling=_arg("enable_video_sampling", False),
sampling_interval_steps=int(_arg("sampling_interval_steps", 0)),
sampling_two_chunk_memory=_arg("sampling_two_chunk_memory", False),
sampling_action_path=_arg("sampling_action_path", None),
sampling_two_chunk_action_path=_arg("sampling_two_chunk_action_path", None),
sampling_negative_prompt=_arg("sampling_negative_prompt", ""),
sampling_height=int(_arg("sampling_height", 352)),
sampling_width=int(_arg("sampling_width", 640)),
sampling_num_frames=int(_arg("sampling_num_frames", 81)),
sampling_num_inference_steps=int(_arg("sampling_num_inference_steps", 50)),
context_memory_frames=int(_arg("context_memory_frames", 1)),
context_source=_arg("context_source", "replay"),
context_per_frame_vae=_arg("context_per_frame_vae", False),
)
optimizer = torch.optim.AdamW(model.trainable_modules(), lr=args.learning_rate)
scheduler = torch.optim.lr_scheduler.ConstantLR(optimizer)
# Setup FOV retriever for context-based memory training (also for ModelLogger sampling)
enable_fov_retrieval = _arg('enable_fov_retrieval', False)
fov_retriever = None
dataset_base_path = _arg('dataset_base_path', None)
if enable_fov_retrieval:
fov_retriever = setup_fov_retriever_for_training(
dataset_base_path=dataset_base_path,
enable_fov_retrieval=True
)
launch_training_task(
dataset, model, model_logger, optimizer, scheduler,
num_epochs=args.num_epochs,
gradient_accumulation_steps=args.gradient_accumulation_steps,
per_device_train_batch_size=int(_arg("per_device_train_batch_size", 1)),
spike_threshold=_arg('spike_threshold', 5.0),
resume_step_count=resume_step_count,
enable_fov_retrieval=enable_fov_retrieval,
retrieval_method=_arg('retrieval_method', 'fov'),
latent_retrieval_dir=_arg('latent_retrieval_dir', None),
dataset_base_path=_arg('dataset_base_path', None),
fov_retriever=fov_retriever,
context_memory_frames=_arg('context_memory_frames', 8),
prev_chunk_frames=int(_arg('prev_chunk_frames', 81)),
fov_top_k=_arg('fov_top_k', 4), # Number of overlap frames (4), GT frame 0 added automatically
use_rt_relative=_arg('use_rt_relative', False), # Experiment 1_4_2: RT relative conversion
strict_overlap_context=_arg('strict_overlap_context', False),
dataset_repeat=_arg('dataset_repeat', 1), # Pass dataset_repeat for step calculation
use_camera_encoder=_arg('use_camera_encoder', False), # exp1_4_3: DDP find_unused_parameters
num_workers=_arg('num_workers', 0),
context_source=_arg('context_source', 'fov'),
max_train_steps=int(_arg('max_train_steps', 0)),
progress_total_steps=int(_arg('progress_total_steps', 0)),
)
model_logger.finish() |