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private-model / lora-scripts /sd-scripts /library /sai_model_spec.py

ACCC1380

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	# based on https://github.com/Stability-AI/ModelSpec
	import datetime
	import hashlib
	from io import BytesIO
	import os
	from typing import List, Optional, Tuple, Union
	import safetensors
	from library.utils import setup_logging
	setup_logging()
	import logging
	logger = logging.getLogger(__name__)

	r"""
	# Metadata Example
	metadata = {
	# === Must ===
	"modelspec.sai_model_spec": "1.0.0", # Required version ID for the spec
	"modelspec.architecture": "stable-diffusion-xl-v1-base", # Architecture, reference the ID of the original model of the arch to match the ID
	"modelspec.implementation": "sgm",
	"modelspec.title": "Example Model Version 1.0", # Clean, human-readable title. May use your own phrasing/language/etc
	# === Should ===
	"modelspec.author": "Example Corp", # Your name or company name
	"modelspec.description": "This is my example model to show you how to do it!", # Describe the model in your own words/language/etc. Focus on what users need to know
	"modelspec.date": "2023-07-20", # ISO-8601 compliant date of when the model was created
	# === Can ===
	"modelspec.license": "ExampleLicense-1.0", # eg CreativeML Open RAIL, etc.
	"modelspec.usage_hint": "Use keyword 'example'" # In your own language, very short hints about how the user should use the model
	}
	"""

	BASE_METADATA = {
	# === Must ===
	"modelspec.sai_model_spec": "1.0.0", # Required version ID for the spec
	"modelspec.architecture": None,
	"modelspec.implementation": None,
	"modelspec.title": None,
	"modelspec.resolution": None,
	# === Should ===
	"modelspec.description": None,
	"modelspec.author": None,
	"modelspec.date": None,
	# === Can ===
	"modelspec.license": None,
	"modelspec.tags": None,
	"modelspec.merged_from": None,
	"modelspec.prediction_type": None,
	"modelspec.timestep_range": None,
	"modelspec.encoder_layer": None,
	}

	# 別に使うやつだけ定義
	MODELSPEC_TITLE = "modelspec.title"

	ARCH_SD_V1 = "stable-diffusion-v1"
	ARCH_SD_V2_512 = "stable-diffusion-v2-512"
	ARCH_SD_V2_768_V = "stable-diffusion-v2-768-v"
	ARCH_SD_XL_V1_BASE = "stable-diffusion-xl-v1-base"

	ADAPTER_LORA = "lora"
	ADAPTER_TEXTUAL_INVERSION = "textual-inversion"

	IMPL_STABILITY_AI = "https://github.com/Stability-AI/generative-models"
	IMPL_DIFFUSERS = "diffusers"

	PRED_TYPE_EPSILON = "epsilon"
	PRED_TYPE_V = "v"


	def load_bytes_in_safetensors(tensors):
	bytes = safetensors.torch.save(tensors)
	b = BytesIO(bytes)

	b.seek(0)
	header = b.read(8)
	n = int.from_bytes(header, "little")

	offset = n + 8
	b.seek(offset)

	return b.read()


	def precalculate_safetensors_hashes(state_dict):
	# calculate each tensor one by one to reduce memory usage
	hash_sha256 = hashlib.sha256()
	for tensor in state_dict.values():
	single_tensor_sd = {"tensor": tensor}
	bytes_for_tensor = load_bytes_in_safetensors(single_tensor_sd)
	hash_sha256.update(bytes_for_tensor)

	return f"0x{hash_sha256.hexdigest()}"


	def update_hash_sha256(metadata: dict, state_dict: dict):
	raise NotImplementedError


	def build_metadata(
	state_dict: Optional[dict],
	v2: bool,
	v_parameterization: bool,
	sdxl: bool,
	lora: bool,
	textual_inversion: bool,
	timestamp: float,
	title: Optional[str] = None,
	reso: Optional[Union[int, Tuple[int, int]]] = None,
	is_stable_diffusion_ckpt: Optional[bool] = None,
	author: Optional[str] = None,
	description: Optional[str] = None,
	license: Optional[str] = None,
	tags: Optional[str] = None,
	merged_from: Optional[str] = None,
	timesteps: Optional[Tuple[int, int]] = None,
	clip_skip: Optional[int] = None,
	):
	# if state_dict is None, hash is not calculated

	metadata = {}
	metadata.update(BASE_METADATA)

	# TODO メモリを消費せずかつ正しいハッシュ計算の方法がわかったら実装する
	# if state_dict is not None:
	# hash = precalculate_safetensors_hashes(state_dict)
	# metadata["modelspec.hash_sha256"] = hash

	if sdxl:
	arch = ARCH_SD_XL_V1_BASE
	elif v2:
	if v_parameterization:
	arch = ARCH_SD_V2_768_V
	else:
	arch = ARCH_SD_V2_512
	else:
	arch = ARCH_SD_V1

	if lora:
	arch += f"/{ADAPTER_LORA}"
	elif textual_inversion:
	arch += f"/{ADAPTER_TEXTUAL_INVERSION}"

	metadata["modelspec.architecture"] = arch

	if not lora and not textual_inversion and is_stable_diffusion_ckpt is None:
	is_stable_diffusion_ckpt = True # default is stable diffusion ckpt if not lora and not textual_inversion

	if (lora and sdxl) or textual_inversion or is_stable_diffusion_ckpt:
	# Stable Diffusion ckpt, TI, SDXL LoRA
	impl = IMPL_STABILITY_AI
	else:
	# v1/v2 LoRA or Diffusers
	impl = IMPL_DIFFUSERS
	metadata["modelspec.implementation"] = impl

	if title is None:
	if lora:
	title = "LoRA"
	elif textual_inversion:
	title = "TextualInversion"
	else:
	title = "Checkpoint"
	title += f"@{timestamp}"
	metadata[MODELSPEC_TITLE] = title

	if author is not None:
	metadata["modelspec.author"] = author
	else:
	del metadata["modelspec.author"]

	if description is not None:
	metadata["modelspec.description"] = description
	else:
	del metadata["modelspec.description"]

	if merged_from is not None:
	metadata["modelspec.merged_from"] = merged_from
	else:
	del metadata["modelspec.merged_from"]

	if license is not None:
	metadata["modelspec.license"] = license
	else:
	del metadata["modelspec.license"]

	if tags is not None:
	metadata["modelspec.tags"] = tags
	else:
	del metadata["modelspec.tags"]

	# remove microsecond from time
	int_ts = int(timestamp)

	# time to iso-8601 compliant date
	date = datetime.datetime.fromtimestamp(int_ts).isoformat()
	metadata["modelspec.date"] = date

	if reso is not None:
	# comma separated to tuple
	if isinstance(reso, str):
	reso = tuple(map(int, reso.split(",")))
	if len(reso) == 1:
	reso = (reso[0], reso[0])
	else:
	# resolution is defined in dataset, so use default
	if sdxl:
	reso = 1024
	elif v2 and v_parameterization:
	reso = 768
	else:
	reso = 512
	if isinstance(reso, int):
	reso = (reso, reso)

	metadata["modelspec.resolution"] = f"{reso[0]}x{reso[1]}"

	if v_parameterization:
	metadata["modelspec.prediction_type"] = PRED_TYPE_V
	else:
	metadata["modelspec.prediction_type"] = PRED_TYPE_EPSILON

	if timesteps is not None:
	if isinstance(timesteps, str) or isinstance(timesteps, int):
	timesteps = (timesteps, timesteps)
	if len(timesteps) == 1:
	timesteps = (timesteps[0], timesteps[0])
	metadata["modelspec.timestep_range"] = f"{timesteps[0]},{timesteps[1]}"
	else:
	del metadata["modelspec.timestep_range"]

	if clip_skip is not None:
	metadata["modelspec.encoder_layer"] = f"{clip_skip}"
	else:
	del metadata["modelspec.encoder_layer"]

	# # assert all values are filled
	# assert all([v is not None for v in metadata.values()]), metadata
	if not all([v is not None for v in metadata.values()]):
	logger.error(f"Internal error: some metadata values are None: {metadata}")

	return metadata


	# region utils


	def get_title(metadata: dict) -> Optional[str]:
	return metadata.get(MODELSPEC_TITLE, None)


	def load_metadata_from_safetensors(model: str) -> dict:
	if not model.endswith(".safetensors"):
	return {}

	with safetensors.safe_open(model, framework="pt") as f:
	metadata = f.metadata()
	if metadata is None:
	metadata = {}
	return metadata


	def build_merged_from(models: List[str]) -> str:
	def get_title(model: str):
	metadata = load_metadata_from_safetensors(model)
	title = metadata.get(MODELSPEC_TITLE, None)
	if title is None:
	title = os.path.splitext(os.path.basename(model))[0] # use filename
	return title

	titles = [get_title(model) for model in models]
	return ", ".join(titles)


	# endregion


	r"""
	if __name__ == "__main__":
	import argparse
	import torch
	from safetensors.torch import load_file
	from library import train_util

	parser = argparse.ArgumentParser()
	parser.add_argument("--ckpt", type=str, required=True)
	args = parser.parse_args()

	print(f"Loading {args.ckpt}")
	state_dict = load_file(args.ckpt)

	print(f"Calculating metadata")
	metadata = get(state_dict, False, False, False, False, "sgm", False, False, "title", "date", 256, 1000, 0)
	print(metadata)
	del state_dict

	# by reference implementation
	with open(args.ckpt, mode="rb") as file_data:
	file_hash = hashlib.sha256()
	head_len = struct.unpack("Q", file_data.read(8)) # int64 header length prefix
	header = json.loads(file_data.read(head_len[0])) # header itself, json string
	content = (
	file_data.read()
	) # All other content is tightly packed tensors. Copy to RAM for simplicity, but you can avoid this read with a more careful FS-dependent impl.
	file_hash.update(content)
	# ===== Update the hash for modelspec =====
	by_ref = f"0x{file_hash.hexdigest()}"
	print(by_ref)
	print("is same?", by_ref == metadata["modelspec.hash_sha256"])

	"""