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"""Conversion script for the NCSNPP checkpoints.""" |
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import argparse |
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import json |
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import torch |
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from diffusers import ScoreSdeVePipeline, ScoreSdeVeScheduler, UNet2DModel |
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def convert_ncsnpp_checkpoint(checkpoint, config): |
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""" |
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Takes a state dict and the path to |
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""" |
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new_model_architecture = UNet2DModel(**config) |
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new_model_architecture.time_proj.W.data = checkpoint["all_modules.0.W"].data |
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new_model_architecture.time_proj.weight.data = checkpoint["all_modules.0.W"].data |
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new_model_architecture.time_embedding.linear_1.weight.data = checkpoint["all_modules.1.weight"].data |
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new_model_architecture.time_embedding.linear_1.bias.data = checkpoint["all_modules.1.bias"].data |
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new_model_architecture.time_embedding.linear_2.weight.data = checkpoint["all_modules.2.weight"].data |
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new_model_architecture.time_embedding.linear_2.bias.data = checkpoint["all_modules.2.bias"].data |
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new_model_architecture.conv_in.weight.data = checkpoint["all_modules.3.weight"].data |
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new_model_architecture.conv_in.bias.data = checkpoint["all_modules.3.bias"].data |
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new_model_architecture.conv_norm_out.weight.data = checkpoint[list(checkpoint.keys())[-4]].data |
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new_model_architecture.conv_norm_out.bias.data = checkpoint[list(checkpoint.keys())[-3]].data |
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new_model_architecture.conv_out.weight.data = checkpoint[list(checkpoint.keys())[-2]].data |
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new_model_architecture.conv_out.bias.data = checkpoint[list(checkpoint.keys())[-1]].data |
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module_index = 4 |
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def set_attention_weights(new_layer, old_checkpoint, index): |
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new_layer.query.weight.data = old_checkpoint[f"all_modules.{index}.NIN_0.W"].data.T |
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new_layer.key.weight.data = old_checkpoint[f"all_modules.{index}.NIN_1.W"].data.T |
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new_layer.value.weight.data = old_checkpoint[f"all_modules.{index}.NIN_2.W"].data.T |
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new_layer.query.bias.data = old_checkpoint[f"all_modules.{index}.NIN_0.b"].data |
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new_layer.key.bias.data = old_checkpoint[f"all_modules.{index}.NIN_1.b"].data |
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new_layer.value.bias.data = old_checkpoint[f"all_modules.{index}.NIN_2.b"].data |
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new_layer.proj_attn.weight.data = old_checkpoint[f"all_modules.{index}.NIN_3.W"].data.T |
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new_layer.proj_attn.bias.data = old_checkpoint[f"all_modules.{index}.NIN_3.b"].data |
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new_layer.group_norm.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.weight"].data |
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new_layer.group_norm.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.bias"].data |
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def set_resnet_weights(new_layer, old_checkpoint, index): |
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new_layer.conv1.weight.data = old_checkpoint[f"all_modules.{index}.Conv_0.weight"].data |
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new_layer.conv1.bias.data = old_checkpoint[f"all_modules.{index}.Conv_0.bias"].data |
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new_layer.norm1.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.weight"].data |
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new_layer.norm1.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_0.bias"].data |
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new_layer.conv2.weight.data = old_checkpoint[f"all_modules.{index}.Conv_1.weight"].data |
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new_layer.conv2.bias.data = old_checkpoint[f"all_modules.{index}.Conv_1.bias"].data |
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new_layer.norm2.weight.data = old_checkpoint[f"all_modules.{index}.GroupNorm_1.weight"].data |
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new_layer.norm2.bias.data = old_checkpoint[f"all_modules.{index}.GroupNorm_1.bias"].data |
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new_layer.time_emb_proj.weight.data = old_checkpoint[f"all_modules.{index}.Dense_0.weight"].data |
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new_layer.time_emb_proj.bias.data = old_checkpoint[f"all_modules.{index}.Dense_0.bias"].data |
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if new_layer.in_channels != new_layer.out_channels or new_layer.up or new_layer.down: |
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new_layer.conv_shortcut.weight.data = old_checkpoint[f"all_modules.{index}.Conv_2.weight"].data |
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new_layer.conv_shortcut.bias.data = old_checkpoint[f"all_modules.{index}.Conv_2.bias"].data |
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for i, block in enumerate(new_model_architecture.downsample_blocks): |
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has_attentions = hasattr(block, "attentions") |
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for j in range(len(block.resnets)): |
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set_resnet_weights(block.resnets[j], checkpoint, module_index) |
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module_index += 1 |
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if has_attentions: |
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set_attention_weights(block.attentions[j], checkpoint, module_index) |
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module_index += 1 |
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if hasattr(block, "downsamplers") and block.downsamplers is not None: |
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set_resnet_weights(block.resnet_down, checkpoint, module_index) |
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module_index += 1 |
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block.skip_conv.weight.data = checkpoint[f"all_modules.{module_index}.Conv_0.weight"].data |
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block.skip_conv.bias.data = checkpoint[f"all_modules.{module_index}.Conv_0.bias"].data |
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module_index += 1 |
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set_resnet_weights(new_model_architecture.mid_block.resnets[0], checkpoint, module_index) |
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module_index += 1 |
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set_attention_weights(new_model_architecture.mid_block.attentions[0], checkpoint, module_index) |
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module_index += 1 |
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set_resnet_weights(new_model_architecture.mid_block.resnets[1], checkpoint, module_index) |
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module_index += 1 |
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for i, block in enumerate(new_model_architecture.up_blocks): |
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has_attentions = hasattr(block, "attentions") |
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for j in range(len(block.resnets)): |
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set_resnet_weights(block.resnets[j], checkpoint, module_index) |
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module_index += 1 |
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if has_attentions: |
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set_attention_weights( |
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block.attentions[0], checkpoint, module_index |
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) |
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module_index += 1 |
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if hasattr(block, "resnet_up") and block.resnet_up is not None: |
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block.skip_norm.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data |
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block.skip_norm.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data |
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module_index += 1 |
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block.skip_conv.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data |
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block.skip_conv.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data |
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module_index += 1 |
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set_resnet_weights(block.resnet_up, checkpoint, module_index) |
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module_index += 1 |
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new_model_architecture.conv_norm_out.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data |
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new_model_architecture.conv_norm_out.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data |
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module_index += 1 |
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new_model_architecture.conv_out.weight.data = checkpoint[f"all_modules.{module_index}.weight"].data |
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new_model_architecture.conv_out.bias.data = checkpoint[f"all_modules.{module_index}.bias"].data |
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return new_model_architecture.state_dict() |
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if __name__ == "__main__": |
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parser = argparse.ArgumentParser() |
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parser.add_argument( |
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"--checkpoint_path", |
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default="/Users/arthurzucker/Work/diffusers/ArthurZ/diffusion_pytorch_model.bin", |
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type=str, |
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required=False, |
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help="Path to the checkpoint to convert.", |
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) |
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parser.add_argument( |
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"--config_file", |
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default="/Users/arthurzucker/Work/diffusers/ArthurZ/config.json", |
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type=str, |
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required=False, |
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help="The config json file corresponding to the architecture.", |
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) |
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parser.add_argument( |
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"--dump_path", |
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default="/Users/arthurzucker/Work/diffusers/ArthurZ/diffusion_model_new.pt", |
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type=str, |
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required=False, |
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help="Path to the output model.", |
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) |
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args = parser.parse_args() |
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checkpoint = torch.load(args.checkpoint_path, map_location="cpu") |
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with open(args.config_file) as f: |
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config = json.loads(f.read()) |
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converted_checkpoint = convert_ncsnpp_checkpoint( |
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checkpoint, |
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config, |
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) |
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if "sde" in config: |
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del config["sde"] |
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model = UNet2DModel(**config) |
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model.load_state_dict(converted_checkpoint) |
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try: |
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scheduler = ScoreSdeVeScheduler.from_config("/".join(args.checkpoint_path.split("/")[:-1])) |
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pipe = ScoreSdeVePipeline(unet=model, scheduler=scheduler) |
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pipe.save_pretrained(args.dump_path) |
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except: |
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model.save_pretrained(args.dump_path) |
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