iMF-diffusers / iMF-B-2 /pipeline.py
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"""Hub custom pipeline: IMFPipeline.
Load with native Hugging Face diffusers and trust_remote_code=True.
"""
from __future__ import annotations
import inspect
import json
from pathlib import Path
from typing import Dict, List, Optional, Tuple, Union, Any
import torch
from diffusers.pipelines.pipeline_utils import DiffusionPipeline, ImagePipelineOutput
from diffusers.utils.torch_utils import randn_tensor
class IMFPipeline(DiffusionPipeline):
@staticmethod
def prepare_extra_step_kwargs(
scheduler,
generator=None,
eta: float | None = None,
):
kwargs = {}
step_params = set(inspect.signature(scheduler.step).parameters.keys())
if "generator" in step_params:
kwargs["generator"] = generator
if eta is not None and "eta" in step_params:
kwargs["eta"] = eta
return kwargs
model_cpu_offload_seq = "transformer"
def __init__(
self,
transformer,
scheduler,
id2label: Optional[Dict[Union[int, str], str]] = None,
):
super().__init__()
if scheduler is None:
raise ValueError("IMFPipeline requires a scheduler loaded from the checkpoint.")
self.register_modules(transformer=transformer, scheduler=scheduler)
self._id2label = self._normalize_id2label(id2label)
self.labels = self._build_label2id(self._id2label)
self._labels_loaded_from_model_index = bool(self._id2label)
def _ensure_labels_loaded(self) -> None:
if self._labels_loaded_from_model_index:
return
loaded = self._read_id2label_from_model_index(getattr(self.config, "_name_or_path", None))
if loaded:
self._id2label = loaded
self.labels = self._build_label2id(self._id2label)
self._labels_loaded_from_model_index = True
@staticmethod
def _normalize_id2label(id2label: Optional[Dict[Union[int, str], str]]) -> Dict[int, str]:
if not id2label:
return {}
return {int(key): value for key, value in id2label.items()}
@staticmethod
def _read_id2label_from_model_index(variant_path: Optional[str]) -> Dict[int, str]:
if not variant_path:
return {}
model_index_path = Path(variant_path).resolve() / "model_index.json"
if not model_index_path.exists():
return {}
raw = json.loads(model_index_path.read_text(encoding="utf-8"))
id2label = raw.get("id2label")
if not isinstance(id2label, dict):
return {}
return {int(key): value for key, value in id2label.items()}
@staticmethod
def _build_label2id(id2label: Dict[int, str]) -> Dict[str, int]:
label2id: Dict[str, int] = {}
for class_id, value in id2label.items():
for synonym in value.split(","):
synonym = synonym.strip()
if synonym:
label2id[synonym] = int(class_id)
return dict(sorted(label2id.items()))
@property
def id2label(self) -> Dict[int, str]:
self._ensure_labels_loaded()
return self._id2label
def get_label_ids(self, label: Union[str, List[str]]) -> List[int]:
self._ensure_labels_loaded()
if not self.labels:
raise ValueError("No labels loaded. Ensure `id2label` exists in model_index.json.")
if isinstance(label, str):
label = [label]
missing = [item for item in label if item not in self.labels]
if missing:
preview = ", ".join(list(self.labels.keys())[:8])
raise ValueError(f"Unknown label(s): {missing}. Example valid labels: {preview}, ...")
return [self.labels[item] for item in label]
def _normalize_class_labels(self, class_labels: Union[int, str, List[Union[int, str]]]) -> List[int]:
if isinstance(class_labels, int):
return [class_labels]
if isinstance(class_labels, str):
return self.get_label_ids(class_labels)
if class_labels and isinstance(class_labels[0], str):
return self.get_label_ids(class_labels)
return list(class_labels)
def _predict_velocity_u(
self,
latents: torch.Tensor,
timestep: torch.Tensor,
time_gap: torch.Tensor,
class_labels: torch.Tensor,
class_null: torch.Tensor,
guidance_scale: float,
guidance_interval_start: float,
guidance_interval_end: float,
do_classifier_free_guidance: bool,
) -> torch.Tensor:
if do_classifier_free_guidance:
latents_in = torch.cat([latents, latents], dim=0)
labels = torch.cat([class_labels, class_null], dim=0)
omega = torch.tensor([guidance_scale, 1.0], device=latents.device, dtype=latents.dtype)
t_min = torch.tensor([guidance_interval_start, 0.0], device=latents.device, dtype=latents.dtype)
t_max = torch.tensor([guidance_interval_end, 1.0], device=latents.device, dtype=latents.dtype)
batch = latents.shape[0]
timestep_in = timestep.reshape(1).repeat(2 * batch)
time_gap_in = time_gap.reshape(1).repeat(2 * batch)
omega = omega.repeat(batch)
t_min = t_min.repeat(batch)
t_max = t_max.repeat(batch)
else:
latents_in = latents
labels = class_labels
batch = latents.shape[0]
timestep_in = timestep.reshape(1).repeat(batch)
time_gap_in = time_gap.reshape(1).repeat(batch)
omega = torch.full((batch,), guidance_scale, device=latents.device, dtype=latents.dtype)
t_min = torch.full((batch,), guidance_interval_start, device=latents.device, dtype=latents.dtype)
t_max = torch.full((batch,), guidance_interval_end, device=latents.device, dtype=latents.dtype)
outputs = self.transformer(
sample=latents_in,
timestep=timestep_in,
class_labels=labels,
time_gap=time_gap_in,
guidance_scale=omega,
guidance_interval_start=t_min,
guidance_interval_end=t_max,
return_dict=True,
)
velocity_u = outputs.velocity_u
if not do_classifier_free_guidance:
return velocity_u
u_cond, u_uncond = velocity_u.chunk(2, dim=0)
return u_uncond + guidance_scale * (u_cond - u_uncond)
@torch.inference_mode()
def __call__(
self,
class_labels: Union[int, str, List[Union[int, str]]],
num_inference_steps: int = 1,
guidance_scale: float = 2.7,
guidance_interval_start: float = 0.1,
guidance_interval_end: float = 0.9,
generator: Optional[Union[torch.Generator, List[torch.Generator]]] = None,
latents: Optional[torch.Tensor] = None,
output_type: Optional[str] = "pil",
return_dict: bool = True,
) -> Union[ImagePipelineOutput, Tuple]:
if output_type not in {"pil", "np", "pt", "latent"}:
raise ValueError("output_type must be one of: 'pil', 'np', 'pt', 'latent'.")
class_label_ids = self._normalize_class_labels(class_labels)
do_classifier_free_guidance = guidance_scale > 1.0
batch_size = len(class_label_ids)
image_size = int(self.transformer.config.sample_size)
channels = int(self.transformer.config.in_channels)
null_class_val = int(getattr(self.transformer.config, "num_classes", 1000))
if latents is None:
latents = randn_tensor(
shape=(batch_size, channels, image_size, image_size),
generator=generator,
device=self._execution_device,
dtype=self.transformer.dtype,
)
class_labels_t = torch.tensor(class_label_ids, device=latents.device, dtype=torch.long).reshape(-1)
class_labels_t = class_labels_t.clamp(0, null_class_val - 1)
class_null = torch.full_like(class_labels_t, null_class_val)
self.scheduler.set_timesteps(num_inference_steps, device=latents.device)
timesteps = self.scheduler.timesteps
extra_step_kwargs = self.prepare_extra_step_kwargs(self.scheduler, generator=generator)
for i in self.progress_bar(range(num_inference_steps)):
t = timesteps[i]
t_next = timesteps[i + 1]
time_gap = t - t_next
velocity_u = self._predict_velocity_u(
latents,
t,
time_gap,
class_labels_t,
class_null,
guidance_scale,
guidance_interval_start,
guidance_interval_end,
do_classifier_free_guidance,
)
latents = self.scheduler.step(velocity_u, t, latents, **extra_step_kwargs).prev_sample
if output_type == "latent":
images = latents
else:
images_pt = latents.float().clamp(-4, 4)
if output_type == "pt":
images = images_pt
elif output_type == "np":
images = images_pt.cpu().permute(0, 2, 3, 1).numpy()
else:
images = self.numpy_to_pil(images_pt.cpu().permute(0, 2, 3, 1).numpy())
self.maybe_free_model_hooks()
if not return_dict:
return (images,)
return ImagePipelineOutput(images=images)
IMFPipelineOutput = ImagePipelineOutput