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convert_ncsnpp_original_checkpoint_to_diffusers.py
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convert_ncsnpp_original_checkpoint_to_diffusers.py
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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.
""" Conversion script for the NCSNPP checkpoints. """
import argparse
import json
import torch
from diffusers import UNetUnconditionalModel
def convert_ncsnpp_checkpoint(checkpoint, config):
"""
Takes a state dict and the path to
"""
new_model_architecture = UNetUnconditionalModel(**config)
new_model_architecture.time_steps.W.data= checkpoint['all_modules.0.W'].data
new_model_architecture.time_steps.weight.data = checkpoint['all_modules.0.W'].data
new_model_architecture.time_embedding.linear_1.weight.data = checkpoint['all_modules.1.weight'].data
new_model_architecture.time_embedding.linear_1.bias.data = checkpoint['all_modules.1.bias'].data
new_model_architecture.time_embedding.linear_2.weight.data = checkpoint['all_modules.2.weight'].data
new_model_architecture.time_embedding.linear_2.bias.data= checkpoint['all_modules.2.bias'].data
new_model_architecture.conv_in.weight.data = checkpoint['all_modules.3.weight'].data
new_model_architecture.conv_in.bias.data = checkpoint['all_modules.3.bias'].data
new_model_architecture.conv_norm_out.weight.data = checkpoint[list(checkpoint.keys())[-4]].data
new_model_architecture.conv_norm_out.bias.data = checkpoint[list(checkpoint.keys())[-3]].data
new_model_architecture.conv_out.weight.data = checkpoint[list(checkpoint.keys())[-2]].data
new_model_architecture.conv_out.bias.data = checkpoint[list(checkpoint.keys())[-1]].data
module_index = 4
def set_attention_weights(new_layer,old_checkpoint,index):
new_layer.query.weight.data = old_checkpoint[f"all_modules.{index}.NIN_0.W"].data.T
new_layer.key.weight.data = old_checkpoint[f"all_modules.{index}.NIN_1.W"].data.T
new_layer.value.weight.data = old_checkpoint[f"all_modules.{index}.NIN_2.W"].data.T
new_layer.query.bias.data = old_checkpoint[f"all_modules.{index}.NIN_0.b"].data
new_layer.key.bias.data = old_checkpoint[f"all_modules.{index}.NIN_1.b"].data
new_layer.value.bias.data = old_checkpoint[f"all_modules.{index}.NIN_2.b"].data
new_layer.proj_attn.weight.data = old_checkpoint[f"all_modules.{index}.NIN_3.W"].data.T
new_layer.proj_attn.bias.data = old_checkpoint[f"all_modules.{index}.NIN_3.b"].data
new_layer.group_norm.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.weight"].data
new_layer.group_norm.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.bias"].data
def set_resnet_weights(new_layer,old_checkpoint,index):
new_layer.conv1.weight.data = old_checkpoint[f"all_modules.{index}.Conv_0.weight"].data
new_layer.conv1.bias.data = old_checkpoint[f"all_modules.{index}.Conv_0.bias"].data
new_layer.norm1.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.weight"].data
new_layer.norm1.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.bias"].data
new_layer.conv2.weight.data = old_checkpoint[f"all_modules.{index}.Conv_1.weight"].data
new_layer.conv2.bias.data = old_checkpoint[f"all_modules.{index}.Conv_1.bias"].data
new_layer.norm2.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_1.weight"].data
new_layer.norm2.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_1.bias"].data
new_layer.time_emb_proj.weight.data = old_checkpoint[f"all_modules.{index}.Dense_0.weight"].data
new_layer.time_emb_proj.bias.data = old_checkpoint[f"all_modules.{index}.Dense_0.bias"].data
if new_layer.in_channels != new_layer.out_channels or new_layer.up or new_layer.down:
new_layer.conv_shortcut.weight.data = old_checkpoint[f"all_modules.{index}.Conv_2.weight"].data
new_layer.conv_shortcut.bias.data = old_checkpoint[f"all_modules.{index}.Conv_2.bias"].data
for i, block in enumerate(new_model_architecture.downsample_blocks):
has_attentions = hasattr(block, "attentions")
for j in range(len(block.resnets)):
set_resnet_weights(block.resnets[j],checkpoint, module_index)
module_index += 1
if has_attentions:
set_attention_weights(block.attentions[j],checkpoint, module_index)
module_index += 1
if hasattr(block, "downsamplers") and block.downsamplers is not None:
set_resnet_weights(block.resnet_down,checkpoint, module_index)
module_index += 1
block.skip_conv.weight.data = checkpoint[f"all_modules.{module_index}.Conv_0.weight"].data
block.skip_conv.bias.data = checkpoint[f"all_modules.{module_index}.Conv_0.bias"].data
module_index += 1
set_resnet_weights(new_model_architecture.mid.resnets[0],checkpoint,module_index)
module_index += 1
set_attention_weights(new_model_architecture.mid.attentions[0],checkpoint, module_index)
module_index += 1
set_resnet_weights(new_model_architecture.mid.resnets[1],checkpoint,module_index)
module_index += 1
for i, block in enumerate(new_model_architecture.upsample_blocks):
has_attentions = hasattr(block, "attentions")
for j in range(len(block.resnets)):
set_resnet_weights(block.resnets[j],checkpoint, module_index)
module_index += 1
if has_attentions:
set_attention_weights(block.attentions[0],checkpoint, module_index) # why can there only be a single attention layer for up?
module_index += 1
if hasattr(block, "resnet_up") and block.resnet_up is not None:
block.skip_norm.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data
block.skip_norm.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data
module_index += 1
block.skip_conv.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data
block.skip_conv.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data
module_index += 1
set_resnet_weights(block.resnet_up,checkpoint, module_index)
module_index += 1
new_model_architecture.conv_norm_out.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data
new_model_architecture.conv_norm_out.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data
module_index += 1
new_model_architecture.conv_out.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data
new_model_architecture.conv_out.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data
return new_model_architecture.state_dict()
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"--checkpoint_path", default="/Users/arthurzucker/Work/diffusers/ArthurZ/diffusion_model.pt", type=str, required=False, help="Path to the checkpoint to convert."
)
parser.add_argument(
"--config_file",
default="/Users/arthurzucker/Work/diffusers/ArthurZ/config.json",
type=str,
required=False,
help="The config json file corresponding to the architecture.",
)
parser.add_argument(
"--dump_path", default="/Users/arthurzucker/Work/diffusers/ArthurZ/diffusion_model_new.pt", type=str, required=False, help="Path to the output model."
)
args = parser.parse_args()
checkpoint = torch.load(args.checkpoint_path, map_location="cpu")
with open(args.config_file) as f:
config = json.loads(f.read())
converted_checkpoint = convert_ncsnpp_checkpoint(checkpoint, config,)
torch.save(converted_checkpoint, args.dump_path)