low-high-reference / LongLive-main /interactive_inference.py
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# Copyright (c) 2025 NVIDIA CORPORATION & AFFILIATES
#
# Licensed under the Apache License, Version 2.0 (the "License").
# You may not use this file except in compliance with the License.
# To view a copy of this license, visit http://www.apache.org/licenses/LICENSE-2.0
#
# No warranties are given. The work is provided "AS IS", without warranty of any kind, express or implied.
#
# SPDX-License-Identifier: Apache-2.0
import argparse
import os
from typing import List
import torch
import torch.distributed as dist
from omegaconf import OmegaConf
from tqdm import tqdm
from torch.utils.data import DataLoader, SequentialSampler
from torch.utils.data.distributed import DistributedSampler
from torchvision.io import write_video
from torchvision import transforms # noqa: F401
from einops import rearrange
from utils.misc import set_seed
from utils.distributed import barrier
from utils.memory import gpu, get_cuda_free_memory_gb, DynamicSwapInstaller
from pipeline.interactive_causal_inference import (
InteractiveCausalInferencePipeline,
)
from utils.dataset import MultiTextDataset
# ----------------------------- Argument parsing -----------------------------
parser = argparse.ArgumentParser("Interactive causal inference")
parser.add_argument("--config_path", type=str, help="Path to the config file")
args = parser.parse_args()
config = OmegaConf.load(args.config_path)
# ----------------------------- Distributed setup -----------------------------
if "LOCAL_RANK" in os.environ:
os.environ["NCCL_CROSS_NIC"] = "1"
os.environ["NCCL_DEBUG"] = os.environ.get("NCCL_DEBUG", "INFO")
os.environ["NCCL_TIMEOUT"] = os.environ.get("NCCL_TIMEOUT", "1800")
local_rank = int(os.environ["LOCAL_RANK"])
world_size = int(os.environ.get("WORLD_SIZE", "1"))
rank = int(os.environ.get("RANK", str(local_rank)))
# Set device first
torch.cuda.set_device(local_rank)
device = torch.device(f"cuda:{local_rank}")
# Initialize process group with backend and timeout
if not dist.is_initialized():
dist.init_process_group(
backend="nccl",
rank=rank,
world_size=world_size,
timeout=torch.distributed.constants.default_pg_timeout
)
set_seed(config.seed + local_rank)
print(f"[Rank {rank}] Initialized distributed processing on device {device}")
else:
local_rank = 0
rank = 0
device = torch.device("cuda")
set_seed(config.seed)
print(f"Single GPU mode on device {device}")
low_memory = get_cuda_free_memory_gb(device) < 40
torch.set_grad_enabled(False)
pipeline = InteractiveCausalInferencePipeline(config, device=device)
if config.generator_ckpt:
state_dict = torch.load(config.generator_ckpt, map_location="cpu")
raw_gen_state_dict = state_dict["generator_ema" if config.use_ema else "generator"]
if config.use_ema:
def _clean_key(name: str) -> str:
return name.replace("_fsdp_wrapped_module.", "")
cleaned_state_dict = {_clean_key(k): v for k, v in raw_gen_state_dict.items()}
missing, unexpected = pipeline.generator.load_state_dict(
cleaned_state_dict, strict=False
)
if local_rank == 0:
if missing:
print(f"[Warning] {len(missing)} parameters missing: {missing[:8]} ...")
if unexpected:
print(f"[Warning] {len(unexpected)} unexpected params: {unexpected[:8]} ...")
else:
pipeline.generator.load_state_dict(raw_gen_state_dict)
# --------------------------- LoRA support (optional) ---------------------------
from utils.lora_utils import configure_lora_for_model
import peft
pipeline.is_lora_enabled = False
if getattr(config, "adapter", None) and configure_lora_for_model is not None:
if local_rank == 0:
print(f"LoRA enabled with config: {config.adapter}")
print("Applying LoRA to generator (inference)...")
# After loading base weights, apply LoRA wrapper to the generator's transformer model
pipeline.generator.model = configure_lora_for_model(
pipeline.generator.model,
model_name="generator",
lora_config=config.adapter,
is_main_process=(local_rank == 0),
)
# Load LoRA weights (if lora_ckpt is provided)
lora_ckpt_path = getattr(config, "lora_ckpt", None)
if lora_ckpt_path:
if local_rank == 0:
print(f"Loading LoRA checkpoint from {lora_ckpt_path}")
lora_checkpoint = torch.load(lora_ckpt_path, map_location="cpu")
# Support both formats: containing the `generator_lora` key or a raw LoRA state dict
if isinstance(lora_checkpoint, dict) and "generator_lora" in lora_checkpoint:
peft.set_peft_model_state_dict(pipeline.generator.model, lora_checkpoint["generator_lora"]) # type: ignore
else:
peft.set_peft_model_state_dict(pipeline.generator.model, lora_checkpoint) # type: ignore
if local_rank == 0:
print("LoRA weights loaded for generator")
else:
if local_rank == 0:
print("No LoRA checkpoint specified; using base weights with LoRA adapters initialized")
pipeline.is_lora_enabled = True
# Move pipeline to appropriate dtype and device
print("dtype", pipeline.generator.model.dtype)
pipeline = pipeline.to(dtype=torch.bfloat16)
if low_memory:
DynamicSwapInstaller.install_model(pipeline.text_encoder, device=device)
pipeline.generator.to(device=device)
pipeline.vae.to(device=device)
# ----------------------------- Build dataset -----------------------------
# Parse switch_frame_indices
if isinstance(config.switch_frame_indices, int):
switch_frame_indices: List[int] = [int(config.switch_frame_indices)]
else:
switch_frame_indices: List[int] = [
int(x) for x in str(config.switch_frame_indices).split(",") if str(x).strip()
]
# Create dataset
dataset = MultiTextDataset(config.data_path)
# Validate number of segments & switch_frame_indices length
num_segments = len(dataset[0]["prompts_list"])
assert len(switch_frame_indices) == num_segments - 1, (
"The number of switch_frame_indices should be the number of prompt segments minus 1"
)
print("Number of segments:", num_segments)
print("Switch frame indices:", switch_frame_indices)
num_prompts_total = len(dataset)
print(f"Number of prompt lines: {num_prompts_total}")
if dist.is_initialized():
sampler = DistributedSampler(dataset, shuffle=False, drop_last=True)
else:
sampler = SequentialSampler(dataset)
dataloader = DataLoader(dataset, batch_size=1, sampler=sampler, num_workers=0, drop_last=False)
# Create output directory
if local_rank == 0:
os.makedirs(config.output_folder, exist_ok=True)
if dist.is_initialized():
dist.barrier()
# ----------------------------- Inference loop -----------------------------
for i, batch_data in tqdm(enumerate(dataloader), disable=(local_rank != 0)):
idx = batch_data["idx"].item()
prompts_list: List[str] = batch_data["prompts_list"] # type: ignore
sampled_noise = torch.randn(
[
config.num_samples,
config.num_output_frames,
16,
60,
104,
],
device=device,
dtype=torch.bfloat16,
)
video = pipeline.inference(
noise=sampled_noise,
text_prompts_list=prompts_list,
switch_frame_indices=switch_frame_indices,
return_latents=False,
)
current_video = rearrange(video, "b t c h w -> b t h w c").cpu() * 255.0
if dist.is_initialized():
rank = dist.get_rank()
else:
rank = 0
# Determine model type for filename
if hasattr(pipeline, 'is_lora_enabled') and pipeline.is_lora_enabled:
model_type = "lora"
elif getattr(config, 'use_ema', False):
model_type = "ema"
else:
model_type = "regular"
for seed_idx in range(config.num_samples):
if config.save_with_index:
output_path = os.path.join(config.output_folder, f"rank{rank}-{idx}-{seed_idx}_{model_type}.mp4")
else:
# Use the first prompt segment as the filename prefix to avoid overly long names
short_name = prompts_list[0][0][:100].replace("/", "_")
output_path = os.path.join(config.output_folder, f"rank{rank}-{short_name}-{seed_idx}_{model_type}.mp4")
write_video(output_path, current_video[seed_idx].to(torch.uint8), fps=16)
if config.inference_iter != -1 and i >= config.inference_iter:
break
if dist.is_initialized():
dist.destroy_process_group()