live-voice-chat/server/video_models/wan22.py

"""Wan2.2-Lightning image-to-video wrapper via LightX2V.

This wrapper targets LightX2V's actual Python entry points (verified against
the upstream ``lightx2v.infer.main`` in ModelTC/LightX2V@main):

    from lightx2v.utils.set_config import set_config
    from lightx2v.utils.input_info import init_empty_input_info, update_input_info_from_dict
    from lightx2v.infer import init_runner

    args = argparse.Namespace(model_cls=..., task="i2v", model_path=..., config_json=..., ...)
    config = set_config(args)
    input_info = init_empty_input_info(args.task, args.support_tasks)
    runner = init_runner(config)       # loads all weights — done ONCE

    update_input_info_from_dict(input_info, {"seed": ..., "prompt": ..., "image_path": ..., "save_result_path": ...})
    runner.run_pipeline(input_info)    # per-turn; MP4 written to save_result_path
    # LoRA hot-swap:
    runner.switch_lora(lora_path, strength)   # swap in
    runner.switch_lora("", 0.0)               # remove

Model weights are loaded once at construction and held resident across turns
so reflective mode doesn't re-pay the load cost each reply.

Two HuggingFace repos are consumed on first run (cached under HF_HOME):
    - Wan-AI/Wan2.2-I2V-A14B      — T5 encoder, VAE, tokenizer/config only.
                                     The bf16 DIT shards under high_noise_model/
                                     and low_noise_model/ are SKIPPED via
                                     ignore_patterns — we replace them with
                                     quantised checkpoints from dit_repo.
    - dit_repo (configurable)      — quantised DIT checkpoints.  Supported
                                     formats:
                                     * fp8 safetensors (lightx2v/Wan2.2-Distill-Models)
                                     * GGUF (QuantStack/Wan2.2-I2V-A14B-GGUF)
"""
from __future__ import annotations

import argparse
import json
import logging
import os
import random
import tempfile
from typing import TYPE_CHECKING

import numpy as np

if TYPE_CHECKING:
    from server.video import LoRASpec

log = logging.getLogger(__name__)

# --- fp8 distill filenames --------------------------------------------------
FP8_HIGH_NOISE_FILE = "wan2.2_i2v_A14b_high_noise_scaled_fp8_e4m3_lightx2v_4step.safetensors"
FP8_LOW_NOISE_FILE = "wan2.2_i2v_A14b_low_noise_scaled_fp8_e4m3_lightx2v_4step.safetensors"

# --- GGUF filenames (QuantStack layout: HighNoise/<name>.gguf) ---------------
GGUF_HIGH_NOISE_TEMPLATE = "HighNoise/Wan2.2-I2V-A14B-HighNoise-{quant}.gguf"
GGUF_LOW_NOISE_TEMPLATE = "LowNoise/Wan2.2-I2V-A14B-LowNoise-{quant}.gguf"

# --- fp8 T5 encoder (lightx2v/Encoders repo) --------------------------------
T5_FP8_REPO = "lightx2v/Encoders"
T5_FP8_FILE = "models_t5_umt5-xxl-enc-fp8.safetensors"

# The Wan-AI base repo ships bf16 DIT weight shards (~28 GB) alongside the
# T5/VAE/tokenizer support files (~12 GB). We only need the latter — the
# quantised files from dit_repo replace the DIT weights entirely.  We must
# keep the config.json / index.json metadata under high_noise_model/ and
# low_noise_model/ (LightX2V's set_config reads architecture params like
# ``dim`` from them) and the tokenizer files under google/.
BASE_REPO_IGNORE_PATTERNS = [
    "high_noise_model/*.safetensors",
    "low_noise_model/*.safetensors",
    "assets/*",
    "examples/*",
    "nohup.out",
    "*.md",
]


def _patch_fp8_scaled_mm_for_blackwell() -> None:
    """Replace sgl_kernel.fp8_scaled_mm with torch._scaled_mm on Blackwell.

    sgl_kernel's CUTLASS-based fp8 GEMM doesn't ship SM120 kernels yet.
    PyTorch 2.8+'s native ``_scaled_mm`` works on all architectures
    including Blackwell. This patch is idempotent.
    """
    try:
        import sgl_kernel  # type: ignore[import-not-found]
    except ImportError:
        return  # no sgl_kernel → fp8 T5 not in use

    if getattr(sgl_kernel, "_fp8_patched_for_blackwell", False):
        return

    import torch

    if not torch.cuda.is_available():
        return

    cap = torch.cuda.get_device_capability()
    if cap[0] < 12:
        return  # only patch on Blackwell+

    _orig = sgl_kernel.fp8_scaled_mm

    def _torch_fp8_scaled_mm(
        a: torch.Tensor,
        b: torch.Tensor,
        a_scale: torch.Tensor,
        b_scale: torch.Tensor,
        out_dtype: torch.dtype,
        bias: torch.Tensor | None = None,
    ) -> torch.Tensor:
        # torch._scaled_mm expects (M,K) @ (N,K).t() with:
        #   scale_a: scalar or (M,1)
        #   scale_b: scalar or (1,N)
        # sgl_kernel provides scale_b as (N,1) — transpose it.
        if b_scale.dim() == 2 and b_scale.shape[1] == 1:
            b_scale = b_scale.t()
        # _scaled_mm requires B to be column-major (stride(0)==1).
        bt = b.t().contiguous().t()
        out = torch._scaled_mm(
            a, bt,
            scale_a=a_scale, scale_b=b_scale,
            out_dtype=out_dtype, bias=bias,
        )
        return out

    sgl_kernel.fp8_scaled_mm = _torch_fp8_scaled_mm
    sgl_kernel._fp8_patched_for_blackwell = True
    log.info("Patched sgl_kernel.fp8_scaled_mm → torch._scaled_mm for Blackwell (SM%d%d).", *cap)


class Wan22Pipeline:
    """Wrapper around LightX2V's Wan2.2 MoE distill runner.

    Supports two DIT quantisation formats:
    * **fp8** — ``dit_quant_scheme="fp8-sgl"`` (default, from
      ``lightx2v/Wan2.2-Distill-Models``)
    * **GGUF** — ``dit_quant_scheme="gguf-Q4_K_M"`` (or any quant level,
      from ``QuantStack/Wan2.2-I2V-A14B-GGUF``)

    Constructor downloads (if needed) both HF repos, writes a runtime JSON
    config with absolute ckpt paths, then drives ``lightx2v.infer.init_runner``.
    ``generate_i2v`` runs one inference turn against the already-loaded runner.
    """

    def __init__(
        self,
        base_repo: str,
        dit_repo: str,
        config_json: str,
        model_cls: str = "wan2.2_moe_distill",
        resolution: int = 480,
        fps: int = 16,
        dit_quant_scheme: str = "fp8-sgl",
        t5_quantized: bool = False,
    ):
        self.base_repo = base_repo
        self.dit_repo = dit_repo
        self.config_json_template = config_json
        self.model_cls = model_cls
        self.resolution = resolution
        self.fps = fps
        self.dit_quant_scheme = dit_quant_scheme
        self.t5_quantized = t5_quantized
        self._applied_loras: list[LoRASpec] = []

        self._is_gguf = dit_quant_scheme.startswith("gguf-")

        # 1. Resolve / download base repo (T5/VAE/config) and DIT ckpts.
        self._model_root = self._ensure_base_repo(base_repo)
        self._dit_high, self._dit_low = self._ensure_dit_checkpoints(
            dit_repo, dit_quant_scheme,
        )
        self._t5_fp8_ckpt = (
            self._ensure_t5_fp8() if t5_quantized else None
        )

        # 2. Materialize a runtime JSON config with absolute ckpt paths.
        self._runtime_json_path = self._build_runtime_config()

        # 3. Build the argparse-like namespace LightX2V.set_config() expects.
        args = self._build_args(
            model_cls=model_cls,
            model_path=self._model_root,
            config_json=self._runtime_json_path,
        )

        # 4. Import LightX2V (scoped here so ``import server.video_models.wan22``
        #    never pulls in lightx2v — tests can import this module on CPU).
        from lightx2v.utils.set_config import set_config  # type: ignore[import-not-found]
        from lightx2v.utils.input_info import init_empty_input_info  # type: ignore[import-not-found]
        from lightx2v.infer import init_runner  # type: ignore[import-not-found]

        _patch_fp8_scaled_mm_for_blackwell()

        # 5. Load all models under default DTYPE=BF16 so T5 (which is
        #    hardcoded to bf16 weights) initialises its offload buffers
        #    correctly.  We flip to FP16 *after* init_runner completes.
        log.info("LightX2V set_config (model_cls=%s, model_path=%s)",
                 model_cls, self._model_root)
        self._config = set_config(args)

        self._input_info_template = init_empty_input_info(
            args.task, args.support_tasks
        )

        log.info("LightX2V init_runner — loading weights (this takes a while)...")
        self._runner = init_runner(self._config)
        log.info("LightX2V runner loaded; weights resident.")

        # 6. GGUF: switch global DTYPE to FP16 for inference. GGUF DIT
        #    dequantises to fp16, and many intermediate tensors inside the
        #    DIT forward pass are allocated via GET_DTYPE(). The T5 encoder
        #    is wrapped to temporarily restore BF16 during its forward.
        if self._is_gguf:
            os.environ["DTYPE"] = "FP16"
            from lightx2v.utils.envs import GET_DTYPE  # type: ignore[import-not-found]
            GET_DTYPE.cache_clear()
            log.info("Set DTYPE=FP16 for GGUF (GET_DTYPE()=%s)", GET_DTYPE())
            self._patch_t5_dtype_for_gguf()

    # --- GGUF dtype compatibility patch ----------------------------------------

    def _patch_t5_dtype_for_gguf(self) -> None:
        """Wrap the T5 encoder so it temporarily restores DTYPE=BF16.

        The T5 encoder is hardcoded to bfloat16 weights (wan_runner.py). When
        the global DTYPE is FP16 (required for GGUF DIT), the T5's CPU-offload
        path breaks because intermediate tensor dtypes no longer match the bf16
        weights. We wrap ``run_text_encoder`` to temporarily flip GET_DTYPE()
        back to bf16, then restore fp16 before the DIT runs.
        """
        import os
        import types
        from lightx2v.utils.envs import GET_DTYPE, GET_SENSITIVE_DTYPE  # type: ignore[import-not-found]

        runner = self._runner
        orig_run_text_encoder = runner.run_text_encoder.__func__

        def bf16_text_encoder(self_runner, *args, **kwargs):
            # Flip DTYPE to BF16 so the T5 encoder works with its bf16 weights.
            os.environ["DTYPE"] = "BF16"
            GET_DTYPE.cache_clear()
            GET_SENSITIVE_DTYPE.cache_clear()
            try:
                result = orig_run_text_encoder(self_runner, *args, **kwargs)
            finally:
                # Restore FP16 for the DIT / rest of the pipeline.
                os.environ["DTYPE"] = "FP16"
                GET_DTYPE.cache_clear()
                GET_SENSITIVE_DTYPE.cache_clear()
            return result

        runner.run_text_encoder = types.MethodType(bf16_text_encoder, runner)
        log.info("Patched T5 encoder to use BF16 under GGUF FP16 pipeline.")

    # --- Weight provisioning -------------------------------------------------

    @staticmethod
    def _ensure_base_repo(base_repo: str) -> str:
        """Return a local directory containing the Wan2.2 base support files.

        If ``base_repo`` is already a local directory, use it as-is. Otherwise
        snapshot_download the HF repo into HF_HOME, skipping the bf16 DIT
        shards (they're replaced by the quantised files).
        """
        if os.path.isdir(base_repo):
            return base_repo
        from huggingface_hub import snapshot_download
        log.info("Downloading Wan2.2 base support files from %s "
                 "(skipping bf16 DIT shards)...", base_repo)
        return snapshot_download(
            repo_id=base_repo,
            ignore_patterns=BASE_REPO_IGNORE_PATTERNS,
        )

    @staticmethod
    def _ensure_dit_checkpoints(
        dit_repo: str,
        dit_quant_scheme: str,
    ) -> tuple[str, str]:
        """Return (high_noise_path, low_noise_path) for the DIT pair.

        Supports both fp8 safetensors and GGUF formats.
        """
        if not dit_repo:
            raise ValueError("dit_repo must be a HF repo id or local directory.")

        is_gguf = dit_quant_scheme.startswith("gguf-")

        if is_gguf:
            # Extract quant level, e.g. "gguf-Q4_K_M" → "Q4_K_M"
            quant = dit_quant_scheme.replace("gguf-", "")
            high_file = GGUF_HIGH_NOISE_TEMPLATE.format(quant=quant)
            low_file = GGUF_LOW_NOISE_TEMPLATE.format(quant=quant)
        else:
            high_file = FP8_HIGH_NOISE_FILE
            low_file = FP8_LOW_NOISE_FILE

        # Local directory?
        if os.path.isdir(dit_repo):
            high = os.path.join(dit_repo, high_file)
            low = os.path.join(dit_repo, low_file)
            if not (os.path.isfile(high) and os.path.isfile(low)):
                raise FileNotFoundError(
                    f"DIT checkpoints not found in {dit_repo}: expected "
                    f"{high_file} and {low_file}"
                )
            return high, low

        # HuggingFace download.
        from huggingface_hub import hf_hub_download
        log.info("Downloading %s DIT checkpoints from %s ...",
                 dit_quant_scheme, dit_repo)
        high = hf_hub_download(repo_id=dit_repo, filename=high_file)
        low = hf_hub_download(repo_id=dit_repo, filename=low_file)
        return high, low

    @staticmethod
    def _ensure_t5_fp8() -> str:
        """Download the fp8 T5 encoder from lightx2v/Encoders (if not cached).

        Returns the local path to the safetensors file (~6 GB).
        """
        from huggingface_hub import hf_hub_download
        log.info("Downloading fp8 T5 encoder from %s ...", T5_FP8_REPO)
        return hf_hub_download(repo_id=T5_FP8_REPO, filename=T5_FP8_FILE)

    def _build_runtime_config(self) -> str:
        """Load the template JSON, inject absolute ckpt paths, persist to temp."""
        with open(self.config_json_template, "r", encoding="utf-8") as f:
            cfg = json.load(f)
        # Drop editorial comments before passing to LightX2V.
        cfg.pop("_comment", None)
        cfg["high_noise_quantized_ckpt"] = self._dit_high
        cfg["low_noise_quantized_ckpt"] = self._dit_low
        cfg.setdefault("fps", self.fps)

        # T5 fp8 quantization.
        if self._t5_fp8_ckpt:
            cfg["t5_quantized"] = True
            cfg["t5_quant_scheme"] = "fp8-sgl"
            cfg["t5_quantized_ckpt"] = self._t5_fp8_ckpt

        tmp = tempfile.NamedTemporaryFile(
            prefix="wan22_dit_", suffix=".json",
            mode="w", delete=False, encoding="utf-8",
        )
        json.dump(cfg, tmp, indent=2)
        tmp.close()
        log.info("Runtime LightX2V config: %s", tmp.name)
        return tmp.name

    @staticmethod
    def _build_args(
        *, model_cls: str, model_path: str, config_json: str
    ) -> argparse.Namespace:
        """Mirror every field from ``lightx2v.infer.main``'s argparse so
        ``set_config`` finds the attributes it expects. We only customize the
        model/task/path fields; everything else stays at the CLI defaults.
        """
        return argparse.Namespace(
            seed=42,
            model_cls=model_cls,
            task="i2v",
            support_tasks=[],
            model_path=model_path,
            sf_model_path=None,
            config_json=config_json,
            use_prompt_enhancer=False,
            prompt="",
            negative_prompt="",
            image_path="",
            last_frame_path="",
            audio_path="",
            image_strength="1.0",
            image_frame_idx="",
            src_ref_images=None,
            src_video=None,
            src_mask=None,
            src_pose_path=None,
            src_face_path=None,
            src_bg_path=None,
            src_mask_path=None,
            pose=None,
            action_path=None,
            action_ckpt=None,
            save_result_path=None,
            return_result_tensor=False,
            target_shape=[],
            target_video_length=81,
            aspect_ratio="",
            video_path=None,
            sr_ratio=2.0,
        )

    # --- LoRA --------------------------------------------------------------

    def load_loras(self, specs: list["LoRASpec"]) -> None:
        """Apply LoRAs to the Wan2.2 MoE distill pipeline.

        Each spec's ``target`` must be ``"high_noise"`` or ``"low_noise"``
        to route the LoRA to the correct expert.

        With ``lazy_load`` the DIT models are ``None`` at this point, so
        runtime ``switch_lora`` is impossible.  Instead we inject
        ``lora_configs`` + ``lora_dynamic_apply`` into the runner config so
        the LoRAs are applied when the models materialise on first inference.

        Without ``lazy_load`` (models already resident) we call
        ``switch_lora`` with explicit high/low keyword args.
        """
        if not specs:
            return

        # Resolve every path up-front (may trigger HF download).
        resolved: list[tuple["LoRASpec", str]] = []
        for spec in specs:
            local_path = self._resolve_lora_path(spec.path)
            log.info("  LoRA %s → strength=%.2f target=%s (%s)",
                     spec.name or spec.path, spec.weight, spec.target,
                     local_path)
            resolved.append((spec, local_path))

        lazy = self._config.get("lazy_load", False)
        if lazy:
            # Build the lora_configs list that LightX2V's lazy-load path
            # reads inside MultiDistillModelStruct.infer().
            lora_cfgs = []
            for spec, local_path in resolved:
                # LightX2V expects name "high_noise_model" / "low_noise_model"
                cfg_name = {
                    "high_noise": "high_noise_model",
                    "low_noise": "low_noise_model",
                }.get(spec.target)
                if cfg_name is None:
                    raise ValueError(
                        f"LoRA target must be 'high_noise' or 'low_noise', "
                        f"got {spec.target!r}")
                lora_cfgs.append({
                    "name": cfg_name,
                    "path": local_path,
                    "strength": spec.weight,
                })
            self._runner.set_config({
                "lora_configs": lora_cfgs,
                "lora_dynamic_apply": True,
            })
        else:
            # Models are loaded — use runtime hot-swap.
            high_path = high_strength = None
            low_path = low_strength = None
            for spec, local_path in resolved:
                if spec.target == "high_noise":
                    high_path, high_strength = local_path, spec.weight
                elif spec.target == "low_noise":
                    low_path, low_strength = local_path, spec.weight
                else:
                    raise ValueError(
                        f"LoRA target must be 'high_noise' or 'low_noise', "
                        f"got {spec.target!r}")

            kwargs: dict = {}
            if high_path is not None:
                kwargs["high_lora_path"] = high_path
                kwargs["high_lora_strength"] = high_strength
            if low_path is not None:
                kwargs["low_lora_path"] = low_path
                kwargs["low_lora_strength"] = low_strength
            ok = self._runner.switch_lora(**kwargs)
            if not ok:
                raise RuntimeError(
                    "runner.switch_lora returned False. Check that your "
                    "LightX2V build supports runtime LoRA updates for "
                    f"{self.model_cls}.")

        self._applied_loras = list(specs)

    def unload_loras(self) -> None:
        """Remove all currently applied LoRAs."""
        if not self._applied_loras:
            return
        lazy = self._config.get("lazy_load", False)
        if lazy:
            self._runner.set_config({
                "lora_configs": None,
                "lora_dynamic_apply": False,
            })
            # If models were materialised, drop them so the next inference
            # recreates them without LoRAs.
            model_struct = getattr(self._runner, "model", None)
            if model_struct is not None and hasattr(model_struct, "model"):
                for i in range(len(model_struct.model)):
                    model_struct.model[i] = None
        else:
            self._runner.switch_lora("", 0.0)
        self._applied_loras = []

    @staticmethod
    def _resolve_lora_path(path: str) -> str:
        """Resolve a LoRA path. Supports:
        - Absolute/relative local paths (returned as-is if the file exists)
        - ``repo_id:filename`` HuggingFace references
        """
        if os.path.isfile(path):
            return path
        if ":" in path and not path.startswith(("/", "./")):
            repo_id, filename = path.split(":", 1)
            from huggingface_hub import hf_hub_download
            return hf_hub_download(repo_id=repo_id, filename=filename)
        return path

    # --- Inference ---------------------------------------------------------

    def generate_i2v(
        self,
        image_path: str,
        prompt: str,
        seconds: int,
        seed: int | None = None,
        negative_prompt: str = "",
    ) -> np.ndarray:
        """Run image-to-video inference and return decoded frames.

        Returns ``np.ndarray`` shape ``[T, H, W, 3]`` dtype uint8 in RGB.
        """
        if seed is None:
            seed = random.randint(0, 2**31 - 1)

        # Wan2.2 target_video_length is "frames including the conditioning
        # frame", so N seconds → N*fps + 1.
        target_frames = seconds * self.fps + 1

        from lightx2v.utils.input_info import update_input_info_from_dict  # type: ignore[import-not-found]

        with tempfile.NamedTemporaryFile(suffix=".mp4", delete=False) as tf:
            out_path = tf.name
        try:
            log.info("Wan2.2 generate: prompt=%r seconds=%d seed=%d → %s",
                     prompt[:80], seconds, seed, out_path)
            update_input_info_from_dict(
                self._input_info_template,
                {
                    "seed": seed,
                    "prompt": prompt,
                    "negative_prompt": negative_prompt,
                    "image_path": image_path,
                    "save_result_path": out_path,
                    "target_video_length": target_frames,
                    "return_result_tensor": False,
                },
            )
            self._runner.run_pipeline(self._input_info_template)
            return _read_mp4_to_frames(out_path)
        finally:
            try:
                os.remove(out_path)
            except OSError:
                pass


# --- MP4 decoding helper ------------------------------------------------------

def _read_mp4_to_frames(path: str) -> np.ndarray:
    """Decode an MP4 into an RGB uint8 frame array ``[T, H, W, 3]``."""
    try:
        import imageio.v3 as iio  # type: ignore[import-not-found]
        frames = iio.imread(path, plugin="pyav")
        arr = np.asarray(frames)
        if arr.ndim == 3:
            arr = arr[None, ...]
        return arr.astype(np.uint8)
    except Exception as e:  # pragma: no cover - fallback path
        log.warning("imageio decode failed (%s); falling back to cv2", e)
        import cv2  # type: ignore[import-not-found]
        cap = cv2.VideoCapture(path)
        frames: list[np.ndarray] = []
        while True:
            ok, frame = cap.read()
            if not ok:
                break
            frames.append(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB))
        cap.release()
        if not frames:
            raise RuntimeError(f"Failed to decode any frames from {path}")
        return np.stack(frames, axis=0).astype(np.uint8)