mirror of
https://github.com/invoke-ai/InvokeAI
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164 lines
7.1 KiB
Python
164 lines
7.1 KiB
Python
'''
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invokeai.backend.generator.txt2img inherits from invokeai.backend.generator
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'''
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import math
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from typing import Callable, Optional
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import torch
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from diffusers.utils.logging import get_verbosity, set_verbosity, set_verbosity_error
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from .base import Generator
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from .diffusers_pipeline import trim_to_multiple_of, StableDiffusionGeneratorPipeline, \
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ConditioningData
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from ..models import PostprocessingSettings
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class Txt2Img2Img(Generator):
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def __init__(self, model, precision):
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super().__init__(model, precision)
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self.init_latent = None # for get_noise()
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def get_make_image(self, prompt:str, sampler, steps:int, cfg_scale:float, ddim_eta,
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conditioning, width:int, height:int, strength:float,
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step_callback:Optional[Callable]=None, threshold=0.0, warmup=0.2, perlin=0.0,
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h_symmetry_time_pct=None, v_symmetry_time_pct=None, attention_maps_callback=None, **kwargs):
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"""
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Returns a function returning an image derived from the prompt and the initial image
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Return value depends on the seed at the time you call it
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kwargs are 'width' and 'height'
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"""
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self.perlin = perlin
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# noinspection PyTypeChecker
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pipeline: StableDiffusionGeneratorPipeline = self.model
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pipeline.scheduler = sampler
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uc, c, extra_conditioning_info = conditioning
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conditioning_data = (
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ConditioningData(
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uc, c, cfg_scale, extra_conditioning_info,
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postprocessing_settings = PostprocessingSettings(
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threshold=threshold,
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warmup=0.2,
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h_symmetry_time_pct=h_symmetry_time_pct,
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v_symmetry_time_pct=v_symmetry_time_pct
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)
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).add_scheduler_args_if_applicable(pipeline.scheduler, eta=ddim_eta))
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def make_image(x_T):
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first_pass_latent_output, _ = pipeline.latents_from_embeddings(
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latents=torch.zeros_like(x_T),
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num_inference_steps=steps,
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conditioning_data=conditioning_data,
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noise=x_T,
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callback=step_callback,
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)
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# Get our initial generation width and height directly from the latent output so
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# the message below is accurate.
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init_width = first_pass_latent_output.size()[3] * self.downsampling_factor
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init_height = first_pass_latent_output.size()[2] * self.downsampling_factor
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print(
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f"\n>> Interpolating from {init_width}x{init_height} to {width}x{height} using DDIM sampling"
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)
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# resizing
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resized_latents = torch.nn.functional.interpolate(
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first_pass_latent_output,
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size=(height // self.downsampling_factor, width // self.downsampling_factor),
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mode="bilinear"
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)
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# Free up memory from the last generation.
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clear_cuda_cache = kwargs['clear_cuda_cache'] or None
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if clear_cuda_cache is not None:
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clear_cuda_cache()
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second_pass_noise = self.get_noise_like(resized_latents, override_perlin=True)
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# Clear symmetry for the second pass
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from dataclasses import replace
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new_postprocessing_settings = replace(conditioning_data.postprocessing_settings, h_symmetry_time_pct=None)
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new_postprocessing_settings = replace(new_postprocessing_settings, v_symmetry_time_pct=None)
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new_conditioning_data = replace(conditioning_data, postprocessing_settings=new_postprocessing_settings)
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verbosity = get_verbosity()
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set_verbosity_error()
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pipeline_output = pipeline.img2img_from_latents_and_embeddings(
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resized_latents,
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num_inference_steps=steps,
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conditioning_data=new_conditioning_data,
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strength=strength,
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noise=second_pass_noise,
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callback=step_callback)
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set_verbosity(verbosity)
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if pipeline_output.attention_map_saver is not None and attention_maps_callback is not None:
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attention_maps_callback(pipeline_output.attention_map_saver)
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return pipeline.numpy_to_pil(pipeline_output.images)[0]
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# FIXME: do we really need something entirely different for the inpainting model?
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# in the case of the inpainting model being loaded, the trick of
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# providing an interpolated latent doesn't work, so we transiently
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# create a 512x512 PIL image, upscale it, and run the inpainting
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# over it in img2img mode. Because the inpaing model is so conservative
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# it doesn't change the image (much)
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return make_image
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def get_noise_like(self, like: torch.Tensor, override_perlin: bool=False):
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device = like.device
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if device.type == 'mps':
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x = torch.randn_like(like, device='cpu', dtype=self.torch_dtype()).to(device)
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else:
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x = torch.randn_like(like, device=device, dtype=self.torch_dtype())
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if self.perlin > 0.0 and override_perlin == False:
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shape = like.shape
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x = (1-self.perlin)*x + self.perlin*self.get_perlin_noise(shape[3], shape[2])
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return x
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# returns a tensor filled with random numbers from a normal distribution
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def get_noise(self,width,height,scale = True):
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# print(f"Get noise: {width}x{height}")
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if scale:
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# Scale the input width and height for the initial generation
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# Make their area equivalent to the model's resolution area (e.g. 512*512 = 262144),
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# while keeping the minimum dimension at least 0.5 * resolution (e.g. 512*0.5 = 256)
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aspect = width / height
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dimension = self.model.unet.config.sample_size * self.model.vae_scale_factor
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min_dimension = math.floor(dimension * 0.5)
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model_area = dimension * dimension # hardcoded for now since all models are trained on square images
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if aspect > 1.0:
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init_height = max(min_dimension, math.sqrt(model_area / aspect))
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init_width = init_height * aspect
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else:
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init_width = max(min_dimension, math.sqrt(model_area * aspect))
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init_height = init_width / aspect
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scaled_width, scaled_height = trim_to_multiple_of(math.floor(init_width), math.floor(init_height))
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else:
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scaled_width = width
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scaled_height = height
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device = self.model.device
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channels = self.latent_channels
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if channels == 9:
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channels = 4 # we don't really want noise for all the mask channels
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shape = (1, channels,
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scaled_height // self.downsampling_factor, scaled_width // self.downsampling_factor)
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if self.use_mps_noise or device.type == 'mps':
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tensor = torch.empty(size=shape, device='cpu')
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tensor = self.get_noise_like(like=tensor).to(device)
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else:
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tensor = torch.empty(size=shape, device=device)
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tensor = self.get_noise_like(like=tensor)
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return tensor
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