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InvokeAI/ldm/generate.py
Lincoln Stein e6179af46a
Refactor generate.py and dream.py (#534) 
* revert inadvertent change of conda env name (#528)

* Refactor generate.py and dream.py

* config file path (models.yaml) is parsed inside Generate() to simplify
API

* Better handling of keyboard interrupts in file loading mode vs
interactive

* Removed oodles of unused variables.

* move nonfunctional inpainting out of the scripts directory

* fix ugly ddim tqdm formatting
2022-09-14 07:02:31 -04:00

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# Copyright (c) 2022 Lincoln D. Stein (https://github.com/lstein)
# Derived from source code carrying the following copyrights
# Copyright (c) 2022 Machine Vision and Learning Group, LMU Munich
# Copyright (c) 2022 Robin Rombach and Patrick Esser and contributors
import torch
import numpy as np
import random
import os
import time
import re
import sys
import traceback
import transformers
from omegaconf import OmegaConf
from PIL import Image, ImageOps
from torch import nn
from pytorch_lightning import seed_everything, logging
from ldm.util import instantiate_from_config
from ldm.models.diffusion.ddim import DDIMSampler
from ldm.models.diffusion.plms import PLMSSampler
from ldm.models.diffusion.ksampler import KSampler
from ldm.dream.pngwriter import PngWriter
from ldm.dream.image_util import InitImageResizer
from ldm.dream.devices import choose_torch_device
from ldm.dream.conditioning import get_uc_and_c
"""Simplified text to image API for stable diffusion/latent diffusion
Example Usage:
from ldm.generate import Generate
# Create an object with default values
gr = Generate('stable-diffusion-1.4')
# do the slow model initialization
gr.load_model()
# Do the fast inference & image generation. Any options passed here
# override the default values assigned during class initialization
# Will call load_model() if the model was not previously loaded and so
# may be slow at first.
# The method returns a list of images. Each row of the list is a sub-list of [filename,seed]
results = gr.prompt2png(prompt = "an astronaut riding a horse",
outdir = "./outputs/samples",
iterations = 3)
for row in results:
print(f'filename={row[0]}')
print(f'seed ={row[1]}')
# Same thing, but using an initial image.
results = gr.prompt2png(prompt = "an astronaut riding a horse",
outdir = "./outputs/,
iterations = 3,
init_img = "./sketches/horse+rider.png")
for row in results:
print(f'filename={row[0]}')
print(f'seed ={row[1]}')
# Same thing, but we return a series of Image objects, which lets you manipulate them,
# combine them, and save them under arbitrary names
results = gr.prompt2image(prompt = "an astronaut riding a horse"
outdir = "./outputs/")
for row in results:
im = row[0]
seed = row[1]
im.save(f'./outputs/samples/an_astronaut_riding_a_horse-{seed}.png')
im.thumbnail(100,100).save('./outputs/samples/astronaut_thumb.jpg')
Note that the old txt2img() and img2img() calls are deprecated but will
still work.
The full list of arguments to Generate() are:
gr = Generate(
# these values are set once and shouldn't be changed
conf = path to configuration file ('configs/models.yaml')
model = symbolic name of the model in the configuration file
full_precision = False
# this value is sticky and maintained between generation calls
sampler_name = ['ddim', 'k_dpm_2_a', 'k_dpm_2', 'k_euler_a', 'k_euler', 'k_heun', 'k_lms', 'plms'] // k_lms
# these are deprecated - use conf and model instead
weights = path to model weights ('models/ldm/stable-diffusion-v1/model.ckpt')
config = path to model configuraiton ('configs/stable-diffusion/v1-inference.yaml')
)
"""
class Generate:
"""Generate class
Stores default values for multiple configuration items
"""
def __init__(
self,
model = 'stable-diffusion-1.4',
conf = 'configs/models.yaml',
embedding_path = None,
sampler_name = 'k_lms',
ddim_eta = 0.0, # deterministic
full_precision = False,
# these are deprecated; if present they override values in the conf file
weights = None,
config = None,
):
models = OmegaConf.load(conf)
mconfig = models[model]
self.weights = mconfig.weights if weights is None else weights
self.config = mconfig.config if config is None else config
self.height = mconfig.height
self.width = mconfig.width
self.iterations = 1
self.steps = 50
self.cfg_scale = 7.5
self.sampler_name = sampler_name
self.ddim_eta = 0.0 # same seed always produces same image
self.full_precision = True if choose_torch_device() == 'mps' else full_precision
self.strength = 0.75
self.seamless = False
self.embedding_path = embedding_path
self.model = None # empty for now
self.sampler = None
self.device = None
self.session_peakmem = None
self.generators = {}
self.base_generator = None
self.seed = None
# Note that in previous versions, there was an option to pass the
# device to Generate(). However the device was then ignored, so
# it wasn't actually doing anything. This logic could be reinstated.
device_type = choose_torch_device()
self.device = torch.device(device_type)
# for VRAM usage statistics
self.session_peakmem = torch.cuda.max_memory_allocated() if self._has_cuda else None
transformers.logging.set_verbosity_error()
# gets rid of annoying messages about random seed
logging.getLogger('pytorch_lightning').setLevel(logging.ERROR)
def prompt2png(self, prompt, outdir, **kwargs):
"""
Takes a prompt and an output directory, writes out the requested number
of PNG files, and returns an array of [[filename,seed],[filename,seed]...]
Optional named arguments are the same as those passed to Generate and prompt2image()
"""
results = self.prompt2image(prompt, **kwargs)
pngwriter = PngWriter(outdir)
prefix = pngwriter.unique_prefix()
outputs = []
for image, seed in results:
name = f'{prefix}.{seed}.png'
path = pngwriter.save_image_and_prompt_to_png(
image, f'{prompt} -S{seed}', name)
outputs.append([path, seed])
return outputs
def txt2img(self, prompt, **kwargs):
outdir = kwargs.pop('outdir', 'outputs/img-samples')
return self.prompt2png(prompt, outdir, **kwargs)
def img2img(self, prompt, **kwargs):
outdir = kwargs.pop('outdir', 'outputs/img-samples')
assert (
'init_img' in kwargs
), 'call to img2img() must include the init_img argument'
return self.prompt2png(prompt, outdir, **kwargs)
def prompt2image(
self,
# these are common
prompt,
iterations = None,
steps = None,
seed = None,
cfg_scale = None,
ddim_eta = None,
skip_normalize = False,
image_callback = None,
step_callback = None,
width = None,
height = None,
sampler_name = None,
seamless = False,
log_tokenization = False,
with_variations = None,
variation_amount = 0.0,
# these are specific to img2img and inpaint
init_img = None,
init_mask = None,
fit = False,
strength = None,
# these are specific to embiggen (which also relies on img2img args)
embiggen = None,
embiggen_tiles = None,
# these are specific to GFPGAN/ESRGAN
gfpgan_strength = 0,
save_original = False,
upscale = None,
# Set this True to handle KeyboardInterrupt internally
catch_interrupts = False,
**args,
): # eat up additional cruft
"""
ldm.generate.prompt2image() is the common entry point for txt2img() and img2img()
It takes the following arguments:
prompt // prompt string (no default)
iterations // iterations (1); image count=iterations
steps // refinement steps per iteration
seed // seed for random number generator
width // width of image, in multiples of 64 (512)
height // height of image, in multiples of 64 (512)
cfg_scale // how strongly the prompt influences the image (7.5) (must be >1)
seamless // whether the generated image should tile
init_img // path to an initial image
strength // strength for noising/unnoising init_img. 0.0 preserves image exactly, 1.0 replaces it completely
gfpgan_strength // strength for GFPGAN. 0.0 preserves image exactly, 1.0 replaces it completely
ddim_eta // image randomness (eta=0.0 means the same seed always produces the same image)
step_callback // a function or method that will be called each step
image_callback // a function or method that will be called each time an image is generated
with_variations // a weighted list [(seed_1, weight_1), (seed_2, weight_2), ...] of variations which should be applied before doing any generation
variation_amount // optional 0-1 value to slerp from -S noise to random noise (allows variations on an image)
embiggen // scale factor relative to the size of the --init_img (-I), followed by ESRGAN upscaling strength (0-1.0), followed by minimum amount of overlap between tiles as a decimal ratio (0 - 1.0) or number of pixels
embiggen_tiles // list of tiles by number in order to process and replace onto the image e.g. `0 2 4`
To use the step callback, define a function that receives two arguments:
- Image GPU data
- The step number
To use the image callback, define a function of method that receives two arguments, an Image object
and the seed. You can then do whatever you like with the image, including converting it to
different formats and manipulating it. For example:
def process_image(image,seed):
image.save(f{'images/seed.png'})
The callback used by the prompt2png() can be found in ldm/dream_util.py. It contains code
to create the requested output directory, select a unique informative name for each image, and
write the prompt into the PNG metadata.
"""
# TODO: convert this into a getattr() loop
steps = steps or self.steps
width = width or self.width
height = height or self.height
seamless = seamless or self.seamless
cfg_scale = cfg_scale or self.cfg_scale
ddim_eta = ddim_eta or self.ddim_eta
iterations = iterations or self.iterations
strength = strength or self.strength
self.seed = seed
self.log_tokenization = log_tokenization
with_variations = [] if with_variations is None else with_variations
# will instantiate the model or return it from cache
model = self.load_model()
for m in model.modules():
if isinstance(m, (nn.Conv2d, nn.ConvTranspose2d)):
m.padding_mode = 'circular' if seamless else m._orig_padding_mode
assert cfg_scale > 1.0, 'CFG_Scale (-C) must be >1.0'
assert (
0.0 < strength < 1.0
), 'img2img and inpaint strength can only work with 0.0 < strength < 1.0'
assert (
0.0 <= variation_amount <= 1.0
), '-v --variation_amount must be in [0.0, 1.0]'
assert (
(embiggen == None and embiggen_tiles == None) or ((embiggen != None or embiggen_tiles != None) and init_img != None)
), 'Embiggen requires an init/input image to be specified'
if len(with_variations) > 0 or variation_amount > 1.0:
assert seed is not None,\
'seed must be specified when using with_variations'
if variation_amount == 0.0:
assert iterations == 1,\
'when using --with_variations, multiple iterations are only possible when using --variation_amount'
assert all(0 <= weight <= 1 for _, weight in with_variations),\
f'variation weights must be in [0.0, 1.0]: got {[weight for _, weight in with_variations]}'
width, height, _ = self._resolution_check(width, height, log=True)
if sampler_name and (sampler_name != self.sampler_name):
self.sampler_name = sampler_name
self._set_sampler()
tic = time.time()
if self._has_cuda():
torch.cuda.reset_peak_memory_stats()
results = list()
init_image = None
mask_image = None
try:
uc, c = get_uc_and_c(
prompt, model =self.model,
skip_normalize=skip_normalize,
log_tokens =self.log_tokenization
)
(init_image,mask_image) = self._make_images(init_img,init_mask, width, height, fit)
if (init_image is not None) and (mask_image is not None):
generator = self._make_inpaint()
elif (embiggen != None or embiggen_tiles != None):
generator = self._make_embiggen()
elif init_image is not None:
generator = self._make_img2img()
else:
generator = self._make_txt2img()
generator.set_variation(self.seed, variation_amount, with_variations)
results = generator.generate(
prompt,
iterations = iterations,
seed = self.seed,
sampler = self.sampler,
steps = steps,
cfg_scale = cfg_scale,
conditioning = (uc,c),
ddim_eta = ddim_eta,
image_callback = image_callback, # called after the final image is generated
step_callback = step_callback, # called after each intermediate image is generated
width = width,
height = height,
init_img = init_img, # embiggen needs to manipulate from the unmodified init_img
init_image = init_image, # notice that init_image is different from init_img
mask_image = mask_image,
strength = strength,
embiggen = embiggen,
embiggen_tiles = embiggen_tiles,
)
if upscale is not None or gfpgan_strength > 0:
self.upscale_and_reconstruct(results,
upscale = upscale,
strength = gfpgan_strength,
save_original = save_original,
image_callback = image_callback)
except RuntimeError as e:
print(traceback.format_exc(), file=sys.stderr)
print('>> Could not generate image.')
except KeyboardInterrupt:
if catch_interrupts:
print('**Interrupted** Partial results will be returned.')
else:
raise KeyboardInterrupt
toc = time.time()
print('>> Usage stats:')
print(
f'>> {len(results)} image(s) generated in', '%4.2fs' % (toc - tic)
)
if self._has_cuda():
print(
f'>> Max VRAM used for this generation:',
'%4.2fG.' % (torch.cuda.max_memory_allocated() / 1e9),
'Current VRAM utilization:',
'%4.2fG' % (torch.cuda.memory_allocated() / 1e9),
)
self.session_peakmem = max(
self.session_peakmem, torch.cuda.max_memory_allocated()
)
print(
f'>> Max VRAM used since script start: ',
'%4.2fG' % (self.session_peakmem / 1e9),
)
return results
def _make_images(self, img_path, mask_path, width, height, fit=False):
init_image = None
init_mask = None
if not img_path:
return None,None
image = self._load_img(img_path, width, height, fit=fit) # this returns an Image
init_image = self._create_init_image(image) # this returns a torch tensor
if self._has_transparency(image) and not mask_path: # if image has a transparent area and no mask was provided, then try to generate mask
print('>> Initial image has transparent areas. Will inpaint in these regions.')
if self._check_for_erasure(image):
print(
'>> WARNING: Colors underneath the transparent region seem to have been erased.\n',
'>> Inpainting will be suboptimal. Please preserve the colors when making\n',
'>> a transparency mask, or provide mask explicitly using --init_mask (-M).'
)
init_mask = self._create_init_mask(image) # this returns a torch tensor
if mask_path:
mask_image = self._load_img(mask_path, width, height, fit=fit) # this returns an Image
init_mask = self._create_init_mask(mask_image)
return init_image,init_mask
def _make_img2img(self):
if not self.generators.get('img2img'):
from ldm.dream.generator.img2img import Img2Img
self.generators['img2img'] = Img2Img(self.model)
return self.generators['img2img']
def _make_embiggen(self):
if not self.generators.get('embiggen'):
from ldm.dream.generator.embiggen import Embiggen
self.generators['embiggen'] = Embiggen(self.model)
return self.generators['embiggen']
def _make_txt2img(self):
if not self.generators.get('txt2img'):
from ldm.dream.generator.txt2img import Txt2Img
self.generators['txt2img'] = Txt2Img(self.model)
return self.generators['txt2img']
def _make_inpaint(self):
if not self.generators.get('inpaint'):
from ldm.dream.generator.inpaint import Inpaint
self.generators['inpaint'] = Inpaint(self.model)
return self.generators['inpaint']
def load_model(self):
"""Load and initialize the model from configuration variables passed at object creation time"""
if self.model is None:
seed_everything(random.randrange(0, np.iinfo(np.uint32).max))
try:
model = self._load_model_from_config(self.config, self.weights)
if self.embedding_path is not None:
model.embedding_manager.load(
self.embedding_path, self.full_precision
)
self.model = model.to(self.device)
# model.to doesn't change the cond_stage_model.device used to move the tokenizer output, so set it here
self.model.cond_stage_model.device = self.device
except AttributeError as e:
print(f'>> Error loading model. {str(e)}', file=sys.stderr)
print(traceback.format_exc(), file=sys.stderr)
raise SystemExit from e
self._set_sampler()
for m in self.model.modules():
if isinstance(m, (nn.Conv2d, nn.ConvTranspose2d)):
m._orig_padding_mode = m.padding_mode
return self.model
def upscale_and_reconstruct(self,
image_list,
upscale = None,
strength = 0.0,
save_original = False,
image_callback = None):
try:
if upscale is not None:
from ldm.gfpgan.gfpgan_tools import real_esrgan_upscale
if strength > 0:
from ldm.gfpgan.gfpgan_tools import run_gfpgan
except (ModuleNotFoundError, ImportError):
print(traceback.format_exc(), file=sys.stderr)
print('>> You may need to install the ESRGAN and/or GFPGAN modules')
return
for r in image_list:
image, seed = r
try:
if upscale is not None:
if len(upscale) < 2:
upscale.append(0.75)
image = real_esrgan_upscale(
image,
upscale[1],
int(upscale[0]),
seed,
)
if strength > 0:
image = run_gfpgan(
image, strength, seed, 1
)
except Exception as e:
print(
f'>> Error running RealESRGAN or GFPGAN. Your image was not upscaled.\n{e}'
)
if image_callback is not None:
image_callback(image, seed, upscaled=True)
else:
r[0] = image
# to help WebGUI - front end to generator util function
def sample_to_image(self,samples):
return self._sample_to_image(samples)
def _sample_to_image(self,samples):
if not self.base_generator:
from ldm.dream.generator import Generator
self.base_generator = Generator(self.model)
return self.base_generator.sample_to_image(samples)
def _set_sampler(self):
msg = f'>> Setting Sampler to {self.sampler_name}'
if self.sampler_name == 'plms':
self.sampler = PLMSSampler(self.model, device=self.device)
elif self.sampler_name == 'ddim':
self.sampler = DDIMSampler(self.model, device=self.device)
elif self.sampler_name == 'k_dpm_2_a':
self.sampler = KSampler(
self.model, 'dpm_2_ancestral', device=self.device
)
elif self.sampler_name == 'k_dpm_2':
self.sampler = KSampler(self.model, 'dpm_2', device=self.device)
elif self.sampler_name == 'k_euler_a':
self.sampler = KSampler(
self.model, 'euler_ancestral', device=self.device
)
elif self.sampler_name == 'k_euler':
self.sampler = KSampler(self.model, 'euler', device=self.device)
elif self.sampler_name == 'k_heun':
self.sampler = KSampler(self.model, 'heun', device=self.device)
elif self.sampler_name == 'k_lms':
self.sampler = KSampler(self.model, 'lms', device=self.device)
else:
msg = f'>> Unsupported Sampler: {self.sampler_name}, Defaulting to plms'
self.sampler = PLMSSampler(self.model, device=self.device)
print(msg)
# Be warned: config is the path to the model config file, not the dream conf file!
# Also note that we can get config and weights from self, so why do we need to
# pass them as args?
def _load_model_from_config(self, config, weights):
print(f'>> Loading model from {weights}')
# for usage statistics
device_type = choose_torch_device()
if device_type == 'cuda':
torch.cuda.reset_peak_memory_stats()
tic = time.time()
# this does the work
c = OmegaConf.load(config)
pl_sd = torch.load(weights, map_location='cpu')
sd = pl_sd['state_dict']
model = instantiate_from_config(c.model)
m, u = model.load_state_dict(sd, strict=False)
if self.full_precision:
print(
'>> Using slower but more accurate full-precision math (--full_precision)'
)
else:
print(
'>> Using half precision math. Call with --full_precision to use more accurate but VRAM-intensive full precision.'
)
model.half()
model.to(self.device)
model.eval()
# usage statistics
toc = time.time()
print(
f'>> Model loaded in', '%4.2fs' % (toc - tic)
)
if self._has_cuda():
print(
'>> Max VRAM used to load the model:',
'%4.2fG' % (torch.cuda.max_memory_allocated() / 1e9),
'\n>> Current VRAM usage:'
'%4.2fG' % (torch.cuda.memory_allocated() / 1e9),
)
return model
def _load_img(self, path, width, height, fit=False):
assert os.path.exists(path), f'>> {path}: File not found'
# with Image.open(path) as img:
# image = img.convert('RGBA')
image = Image.open(path)
print(
f'>> loaded input image of size {image.width}x{image.height} from {path}'
)
if fit:
image = self._fit_image(image,(width,height))
else:
image = self._squeeze_image(image)
return image
def _create_init_image(self,image):
image = image.convert('RGB')
# print(
# f'>> DEBUG: writing the image to img.png'
# )
# image.save('img.png')
image = np.array(image).astype(np.float32) / 255.0
image = image[None].transpose(0, 3, 1, 2)
image = torch.from_numpy(image)
image = 2.0 * image - 1.0
return image.to(self.device)
def _create_init_mask(self, image):
# convert into a black/white mask
image = self._image_to_mask(image)
image = image.convert('RGB')
# BUG: We need to use the model's downsample factor rather than hardcoding "8"
from ldm.dream.generator.base import downsampling
image = image.resize((image.width//downsampling, image.height//downsampling), resample=Image.Resampling.LANCZOS)
# print(
# f'>> DEBUG: writing the mask to mask.png'
# )
# image.save('mask.png')
image = np.array(image)
image = image.astype(np.float32) / 255.0
image = image[None].transpose(0, 3, 1, 2)
image = torch.from_numpy(image)
return image.to(self.device)
# The mask is expected to have the region to be inpainted
# with alpha transparency. It converts it into a black/white
# image with the transparent part black.
def _image_to_mask(self, mask_image, invert=False) -> Image:
# Obtain the mask from the transparency channel
mask = Image.new(mode="L", size=mask_image.size, color=255)
mask.putdata(mask_image.getdata(band=3))
if invert:
mask = ImageOps.invert(mask)
return mask
def _has_transparency(self,image):
if image.info.get("transparency", None) is not None:
return True
if image.mode == "P":
transparent = image.info.get("transparency", -1)
for _, index in image.getcolors():
if index == transparent:
return True
elif image.mode == "RGBA":
extrema = image.getextrema()
if extrema[3][0] < 255:
return True
return False
def _check_for_erasure(self,image):
width, height = image.size
pixdata = image.load()
colored = 0
for y in range(height):
for x in range(width):
if pixdata[x, y][3] == 0:
r, g, b, _ = pixdata[x, y]
if (r, g, b) != (0, 0, 0) and \
(r, g, b) != (255, 255, 255):
colored += 1
return colored == 0
def _squeeze_image(self,image):
x,y,resize_needed = self._resolution_check(image.width,image.height)
if resize_needed:
return InitImageResizer(image).resize(x,y)
return image
def _fit_image(self,image,max_dimensions):
w,h = max_dimensions
print(
f'>> image will be resized to fit inside a box {w}x{h} in size.'
)
if image.width > image.height:
h = None # by setting h to none, we tell InitImageResizer to fit into the width and calculate height
elif image.height > image.width:
w = None # ditto for w
else:
pass
image = InitImageResizer(image).resize(w,h) # note that InitImageResizer does the multiple of 64 truncation internally
print(
f'>> after adjusting image dimensions to be multiples of 64, init image is {image.width}x{image.height}'
)
return image
def _resolution_check(self, width, height, log=False):
resize_needed = False
w, h = map(
lambda x: x - x % 64, (width, height)
) # resize to integer multiple of 64
if h != height or w != width:
if log:
print(
f'>> Provided width and height must be multiples of 64. Auto-resizing to {w}x{h}'
)
height = h
width = w
resize_needed = True
if (width * height) > (self.width * self.height):
print(">> This input is larger than your defaults. If you run out of memory, please use a smaller image.")
return width, height, resize_needed
def _has_cuda(self):
return self.device.type == 'cuda'
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