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import torch |
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import numpy as np |
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from diffusers import FluxPipeline, FlowMatchEulerDiscreteScheduler |
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from typing import Any, Dict, List, Optional, Union |
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from PIL import Image |
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BASE_SEQ_LEN = 256 |
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MAX_SEQ_LEN = 4096 |
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BASE_SHIFT = 0.5 |
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MAX_SHIFT = 1.2 |
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def calculate_timestep_shift(image_seq_len: int) -> float: |
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"""Calculates the timestep shift (mu) based on the image sequence length.""" |
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m = (MAX_SHIFT - BASE_SHIFT) / (MAX_SEQ_LEN - BASE_SEQ_LEN) |
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b = BASE_SHIFT - m * BASE_SEQ_LEN |
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mu = image_seq_len * m + b |
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return mu |
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def prepare_timesteps( |
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scheduler: FlowMatchEulerDiscreteScheduler, |
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num_inference_steps: Optional[int] = None, |
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device: Optional[Union[str, torch.device]] = None, |
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timesteps: Optional[List[int]] = None, |
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sigmas: Optional[List[float]] = None, |
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mu: Optional[float] = None, |
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) -> (torch.Tensor, int): |
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"""Prepares the timesteps for the diffusion process.""" |
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if timesteps is not None and sigmas is not None: |
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raise ValueError("Only one of `timesteps` or `sigmas` can be passed.") |
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if timesteps is not None: |
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scheduler.set_timesteps(timesteps=timesteps, device=device) |
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elif sigmas is not None: |
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scheduler.set_timesteps(sigmas=sigmas, device=device) |
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else: |
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scheduler.set_timesteps(num_inference_steps, device=device, mu=mu) |
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timesteps = scheduler.timesteps |
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num_inference_steps = len(timesteps) |
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return timesteps, num_inference_steps |
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class FluxWithCFGPipeline(FluxPipeline): |
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""" |
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Extends the FluxPipeline to yield intermediate images during the denoising process |
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with progressively increasing resolution for faster generation. |
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""" |
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@torch.inference_mode() |
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def generate_images( |
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self, |
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prompt: Union[str, List[str]] = None, |
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prompt_2: Optional[Union[str, List[str]]] = None, |
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height: Optional[int] = None, |
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width: Optional[int] = None, |
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num_inference_steps: int = 4, |
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timesteps: List[int] = None, |
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guidance_scale: float = 3.5, |
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num_images_per_prompt: Optional[int] = 1, |
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generator: Optional[Union[torch.Generator, List[torch.Generator]]] = None, |
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latents: Optional[torch.FloatTensor] = None, |
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prompt_embeds: Optional[torch.FloatTensor] = None, |
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pooled_prompt_embeds: Optional[torch.FloatTensor] = None, |
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output_type: Optional[str] = "pil", |
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return_dict: bool = True, |
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joint_attention_kwargs: Optional[Dict[str, Any]] = None, |
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max_sequence_length: int = 300, |
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): |
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"""Generates images and yields intermediate results during the denoising process.""" |
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height = height or self.default_sample_size * self.vae_scale_factor |
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width = width or self.default_sample_size * self.vae_scale_factor |
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self.check_inputs( |
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prompt, |
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prompt_2, |
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height, |
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width, |
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prompt_embeds=prompt_embeds, |
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pooled_prompt_embeds=pooled_prompt_embeds, |
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max_sequence_length=max_sequence_length, |
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) |
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self._guidance_scale = guidance_scale |
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self._joint_attention_kwargs = joint_attention_kwargs |
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self._interrupt = False |
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batch_size = 1 if isinstance(prompt, str) else len(prompt) |
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device = self._execution_device |
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lora_scale = joint_attention_kwargs.get("scale", None) if joint_attention_kwargs is not None else None |
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prompt_embeds, pooled_prompt_embeds, text_ids = self.encode_prompt( |
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prompt=prompt, |
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prompt_2=prompt_2, |
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prompt_embeds=prompt_embeds, |
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pooled_prompt_embeds=pooled_prompt_embeds, |
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device=device, |
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num_images_per_prompt=num_images_per_prompt, |
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max_sequence_length=max_sequence_length, |
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lora_scale=lora_scale, |
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) |
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num_channels_latents = self.transformer.config.in_channels // 4 |
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latents, latent_image_ids = self.prepare_latents( |
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batch_size * num_images_per_prompt, |
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num_channels_latents, |
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height, |
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width, |
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prompt_embeds.dtype, |
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device, |
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generator, |
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latents, |
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) |
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sigmas = np.linspace(1.0, 1 / num_inference_steps, num_inference_steps) |
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image_seq_len = latents.shape[1] |
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mu = calculate_timestep_shift(image_seq_len) |
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timesteps, num_inference_steps = prepare_timesteps( |
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self.scheduler, |
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num_inference_steps, |
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device, |
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timesteps, |
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sigmas, |
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mu=mu, |
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) |
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self._num_timesteps = len(timesteps) |
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guidance = torch.full([1], guidance_scale, device=device, dtype=torch.float16).expand(latents.shape[0]) if self.transformer.config.guidance_embeds else None |
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for i, t in enumerate(timesteps): |
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if self.interrupt: |
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continue |
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timestep = t.expand(latents.shape[0]).to(latents.dtype) |
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noise_pred = self.transformer( |
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hidden_states=latents, |
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timestep=timestep / 1000, |
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guidance=guidance, |
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pooled_projections=pooled_prompt_embeds, |
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encoder_hidden_states=prompt_embeds, |
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txt_ids=text_ids, |
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img_ids=latent_image_ids, |
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joint_attention_kwargs=self.joint_attention_kwargs, |
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return_dict=False, |
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)[0] |
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latents = self.scheduler.step(noise_pred, t, latents, return_dict=False)[0] |
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torch.cuda.empty_cache() |
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return self._decode_latents_to_image(latents, height, width, output_type) |
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self.maybe_free_model_hooks() |
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torch.cuda.empty_cache() |
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def _decode_latents_to_image(self, latents, height, width, output_type, vae=None): |
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"""Decodes the given latents into an image.""" |
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vae = vae or self.vae |
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latents = self._unpack_latents(latents, height, width, self.vae_scale_factor) |
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latents = (latents / vae.config.scaling_factor) + vae.config.shift_factor |
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image = vae.decode(latents, return_dict=False)[0] |
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return self.image_processor.postprocess(image, output_type=output_type)[0] |
