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diffuse-custom / diffusers /modeling_flax_pytorch_utils.py

Jackflack09

Duplicate from YeOldHermit/Super-Resolution-Anime-Diffusion

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	# coding=utf-8
	# Copyright 2022 The HuggingFace Inc. team.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	""" PyTorch - Flax general utilities."""
	import re

	import jax.numpy as jnp
	from flax.traverse_util import flatten_dict, unflatten_dict
	from jax.random import PRNGKey

	from .utils import logging


	logger = logging.get_logger(__name__)


	def rename_key(key):
	regex = r"\w+[.]\d+"
	pats = re.findall(regex, key)
	for pat in pats:
	key = key.replace(pat, "_".join(pat.split(".")))
	return key


	#####################
	# PyTorch => Flax #
	#####################

	# Adapted from https://github.com/huggingface/transformers/blob/c603c80f46881ae18b2ca50770ef65fa4033eacd/src/transformers/modeling_flax_pytorch_utils.py#L69
	# and https://github.com/patil-suraj/stable-diffusion-jax/blob/main/stable_diffusion_jax/convert_diffusers_to_jax.py
	def rename_key_and_reshape_tensor(pt_tuple_key, pt_tensor, random_flax_state_dict):
	"""Rename PT weight names to corresponding Flax weight names and reshape tensor if necessary"""

	# conv norm or layer norm
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("scale",)
	if (
	any("norm" in str_ for str_ in pt_tuple_key)
	and (pt_tuple_key[-1] == "bias")
	and (pt_tuple_key[:-1] + ("bias",) not in random_flax_state_dict)
	and (pt_tuple_key[:-1] + ("scale",) in random_flax_state_dict)
	):
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("scale",)
	return renamed_pt_tuple_key, pt_tensor
	elif pt_tuple_key[-1] in ["weight", "gamma"] and pt_tuple_key[:-1] + ("scale",) in random_flax_state_dict:
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("scale",)
	return renamed_pt_tuple_key, pt_tensor

	# embedding
	if pt_tuple_key[-1] == "weight" and pt_tuple_key[:-1] + ("embedding",) in random_flax_state_dict:
	pt_tuple_key = pt_tuple_key[:-1] + ("embedding",)
	return renamed_pt_tuple_key, pt_tensor

	# conv layer
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("kernel",)
	if pt_tuple_key[-1] == "weight" and pt_tensor.ndim == 4:
	pt_tensor = pt_tensor.transpose(2, 3, 1, 0)
	return renamed_pt_tuple_key, pt_tensor

	# linear layer
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("kernel",)
	if pt_tuple_key[-1] == "weight":
	pt_tensor = pt_tensor.T
	return renamed_pt_tuple_key, pt_tensor

	# old PyTorch layer norm weight
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("weight",)
	if pt_tuple_key[-1] == "gamma":
	return renamed_pt_tuple_key, pt_tensor

	# old PyTorch layer norm bias
	renamed_pt_tuple_key = pt_tuple_key[:-1] + ("bias",)
	if pt_tuple_key[-1] == "beta":
	return renamed_pt_tuple_key, pt_tensor

	return pt_tuple_key, pt_tensor


	def convert_pytorch_state_dict_to_flax(pt_state_dict, flax_model, init_key=42):
	# Step 1: Convert pytorch tensor to numpy
	pt_state_dict = {k: v.numpy() for k, v in pt_state_dict.items()}

	# Step 2: Since the model is stateless, get random Flax params
	random_flax_params = flax_model.init_weights(PRNGKey(init_key))

	random_flax_state_dict = flatten_dict(random_flax_params)
	flax_state_dict = {}

	# Need to change some parameters name to match Flax names
	for pt_key, pt_tensor in pt_state_dict.items():
	renamed_pt_key = rename_key(pt_key)
	pt_tuple_key = tuple(renamed_pt_key.split("."))

	# Correctly rename weight parameters
	flax_key, flax_tensor = rename_key_and_reshape_tensor(pt_tuple_key, pt_tensor, random_flax_state_dict)

	if flax_key in random_flax_state_dict:
	if flax_tensor.shape != random_flax_state_dict[flax_key].shape:
	raise ValueError(
	f"PyTorch checkpoint seems to be incorrect. Weight {pt_key} was expected to be of shape "
	f"{random_flax_state_dict[flax_key].shape}, but is {flax_tensor.shape}."
	)

	# also add unexpected weight so that warning is thrown
	flax_state_dict[flax_key] = jnp.asarray(flax_tensor)

	return unflatten_dict(flax_state_dict)