mmsegmentation/tools/model_converters/clip2mmseg.py

# Copyright (c) OpenMMLab. All rights reserved.
import argparse
import os.path as osp
from collections import OrderedDict

import mmengine
import torch
from mmengine.runner import CheckpointLoader


def convert_vitlayer(paras):
    new_para_name = ''
    if paras[0] == 'ln_1':
        new_para_name = '.'.join(['ln1'] + paras[1:])
    elif paras[0] == 'attn':
        new_para_name = '.'.join(['attn.attn'] + paras[1:])
    elif paras[0] == 'ln_2':
        new_para_name = '.'.join(['ln2'] + paras[1:])
    elif paras[0] == 'mlp':
        if paras[1] == 'c_fc':
            new_para_name = '.'.join(['ffn.layers.0.0'] + paras[-1:])
        else:
            new_para_name = '.'.join(['ffn.layers.1'] + paras[-1:])
    else:
        print(f'Wrong for {paras}')
    return new_para_name


def convert_translayer(paras):
    new_para_name = ''
    if paras[0] == 'attn':
        new_para_name = '.'.join(['attentions.0.attn'] + paras[1:])
    elif paras[0] == 'ln_1':
        new_para_name = '.'.join(['norms.0'] + paras[1:])
    elif paras[0] == 'ln_2':
        new_para_name = '.'.join(['norms.1'] + paras[1:])
    elif paras[0] == 'mlp':
        if paras[1] == 'c_fc':
            new_para_name = '.'.join(['ffns.0.layers.0.0'] + paras[2:])
        elif paras[1] == 'c_proj':
            new_para_name = '.'.join(['ffns.0.layers.1'] + paras[2:])
        else:
            print(f'Wrong for {paras}')
    else:
        print(f'Wrong for {paras}')
    return new_para_name


def convert_key_name(ckpt, visual_split):
    new_ckpt = OrderedDict()
    for k, v in ckpt.items():
        key_list = k.split('.')
        if key_list[0] == 'visual':
            new_transform_name = 'image_encoder'
            if key_list[1] == 'class_embedding':
                new_name = '.'.join([new_transform_name, 'cls_token'])
            elif key_list[1] == 'positional_embedding':
                new_name = '.'.join([new_transform_name, 'pos_embed'])
            elif key_list[1] == 'conv1':
                new_name = '.'.join([
                    new_transform_name, 'patch_embed.projection', key_list[2]
                ])
            elif key_list[1] == 'ln_pre':
                new_name = '.'.join(
                    [new_transform_name, key_list[1], key_list[2]])
            elif key_list[1] == 'transformer':
                new_layer_name = 'layers'
                layer_index = key_list[3]
                paras = key_list[4:]
                if int(layer_index) < visual_split:
                    new_para_name = convert_vitlayer(paras)
                    new_name = '.'.join([
                        new_transform_name, new_layer_name, layer_index,
                        new_para_name
                    ])
                else:
                    new_para_name = convert_translayer(paras)
                    new_transform_name = 'decode_head.rec_with_attnbias'
                    new_layer_name = 'layers'
                    layer_index = str(int(layer_index) - visual_split)
                    new_name = '.'.join([
                        new_transform_name, new_layer_name, layer_index,
                        new_para_name
                    ])
            elif key_list[1] == 'proj':
                new_name = 'decode_head.rec_with_attnbias.proj.weight'
            elif key_list[1] == 'ln_post':
                new_name = k.replace('visual', 'decode_head.rec_with_attnbias')
            else:
                print(f'pop parameter: {k}')
                continue
        else:
            text_encoder_name = 'text_encoder'
            if key_list[0] == 'transformer':
                layer_name = 'transformer'
                layer_index = key_list[2]
                paras = key_list[3:]
                new_para_name = convert_translayer(paras)
                new_name = '.'.join([
                    text_encoder_name, layer_name, layer_index, new_para_name
                ])
            elif key_list[0] in [
                    'positional_embedding', 'text_projection', 'bg_embed',
                    'attn_mask', 'logit_scale', 'token_embedding', 'ln_final'
            ]:
                new_name = 'text_encoder.' + k
            else:
                print(f'pop parameter: {k}')
                continue
        new_ckpt[new_name] = v

    return new_ckpt


def convert_tensor(ckpt):
    cls_token = ckpt['image_encoder.cls_token']
    new_cls_token = cls_token.unsqueeze(0).unsqueeze(0)
    ckpt['image_encoder.cls_token'] = new_cls_token
    pos_embed = ckpt['image_encoder.pos_embed']
    new_pos_embed = pos_embed.unsqueeze(0)
    ckpt['image_encoder.pos_embed'] = new_pos_embed
    proj_weight = ckpt['decode_head.rec_with_attnbias.proj.weight']
    new_proj_weight = proj_weight.transpose(1, 0)
    ckpt['decode_head.rec_with_attnbias.proj.weight'] = new_proj_weight
    return ckpt


def main():
    parser = argparse.ArgumentParser(
        description='Convert keys in timm pretrained vit models to '
        'MMSegmentation style.')
    parser.add_argument('src', help='src model path or url')
    # The dst path must be a full path of the new checkpoint.
    parser.add_argument('dst', help='save path')
    args = parser.parse_args()

    if any([s in args.src for s in ['B-16', 'b16', 'base_patch16']]):
        visual_split = 9
    elif any([s in args.src for s in ['L-14', 'l14', 'large_patch14']]):
        visual_split = 18
    else:
        print('Make sure the clip model is ViT-B/16 or ViT-L/14!')
        visual_split = -1
    checkpoint = CheckpointLoader.load_checkpoint(args.src, map_location='cpu')
    if isinstance(checkpoint, torch.jit.RecursiveScriptModule):
        state_dict = checkpoint.state_dict()
    else:
        if 'state_dict' in checkpoint:
            # timm checkpoint
            state_dict = checkpoint['state_dict']
        elif 'model' in checkpoint:
            # deit checkpoint
            state_dict = checkpoint['model']
        else:
            state_dict = checkpoint
    weight = convert_key_name(state_dict, visual_split)
    weight = convert_tensor(weight)
    mmengine.mkdir_or_exist(osp.dirname(args.dst))
    torch.save(weight, args.dst)


if __name__ == '__main__':
    main()
[Feature] Support Side Adapter Network (#3232) ## Motivation Support SAN for Open-Vocabulary Semantic Segmentation Paper: [Side Adapter Network for Open-Vocabulary Semantic Segmentation](https://arxiv.org/abs/2302.12242) official Code: [SAN](https://github.com/MendelXu/SAN) ## Modification - Added the parameters of backbone vit for implementing the image encoder of CLIP. - Added text encoder code. - Added segmentor multimodel encoder-decoder code for open-vocabulary semantic segmentation. - Added SideAdapterNetwork decode head code. - Added config files for train and inference. - Added tools for converting pretrained models. - Added loss implementation for mask classification model, such as SAN, Maskformer and remove dependency on mmdetection. - Added test units for text encoder, multimodel encoder-decoder, san decode head and hungarian_assigner. ## Use cases ### Convert Models pretrained SAN model The official pretrained model can be downloaded from [san_clip_vit_b_16.pth](https://huggingface.co/Mendel192/san/blob/main/san_vit_b_16.pth) and [san_clip_vit_large_14.pth](https://huggingface.co/Mendel192/san/blob/main/san_vit_large_14.pth). Use tools/model_converters/san2mmseg.py to convert offcial model into mmseg style. `python tools/model_converters/san2mmseg.py <MODEL_PATH> <OUTPUT_PATH>` pretrained CLIP model Use the CLIP model provided by openai to train SAN. The CLIP model can be download from [ViT-B-16.pt](https://openaipublic.azureedge.net/clip/models/5806e77cd80f8b59890b7e101eabd078d9fb84e6937f9e85e4ecb61988df416f/ViT-B-16.pt) and [ViT-L-14-336px.pt](https://openaipublic.azureedge.net/clip/models/3035c92b350959924f9f00213499208652fc7ea050643e8b385c2dac08641f02/ViT-L-14-336px.pt). Use tools/model_converters/clip2mmseg.py to convert model into mmseg style. `python tools/model_converters/clip2mmseg.py <MODEL_PATH> <OUTPUT_PATH>` ### Inference test san_vit-base-16 model on coco-stuff164k dataset `python tools/test.py ./configs/san/san-vit-b16_coco-stuff164k-640x640.py <TRAINED_MODEL_PATH>` ### Train test san_vit-base-16 model on coco-stuff164k dataset `python tools/train.py ./configs/san/san-vit-b16_coco-stuff164k-640x640.py --cfg-options model.pretrained=<PRETRAINED_MODEL_PATH>` ## Comparision Results ### Train on COCO-Stuff164k \| \| \| mIoU \| mAcc \| pAcc \| \| --------------- \| ----- \| ----- \| ----- \| ----- \| \| san-vit-base16 \| official \| 41.93 \| 56.73 \| 67.69 \| \| \| mmseg \| 41.93 \| 56.84 \| 67.84 \| \| san-vit-large14 \| official \| 45.57 \| 59.52 \| 69.76 \| \| \| mmseg \| 45.78 \| 59.61 \| 69.21 \| ### Evaluate on Pascal Context \| \| \| mIoU \| mAcc \| pAcc \| \| --------------- \| ----- \| ----- \| ----- \| ----- \| \| san-vit-base16 \| official \| 54.05 \| 72.96 \| 77.77 \| \| \| mmseg \| 54.04 \| 73.74 \| 77.71 \| \| san-vit-large14 \| official \| 57.53 \| 77.56 \| 78.89 \| \| \| mmseg \| 56.89 \| 76.96 \| 78.74 \| ### Evaluate on Voc12Aug \| \| \| mIoU \| mAcc \| pAcc \| \| --------------- \| ----- \| ----- \| ----- \| ----- \| \| san-vit-base16 \| official \| 93.86 \| 96.61 \| 97.11 \| \| \| mmseg \| 94.58 \| 97.01 \| 97.38 \| \| san-vit-large14 \| official \| 95.17 \| 97.61 \| 97.63 \| \| \| mmseg \| 95.58 \| 97.75 \| 97.79 \| --------- Co-authored-by: CastleDream <35064479+CastleDream@users.noreply.github.com> Co-authored-by: yeedrag <46050186+yeedrag@users.noreply.github.com> Co-authored-by: Yang-ChangHui <71805205+Yang-Changhui@users.noreply.github.com> Co-authored-by: Xu CAO <49406546+SheffieldCao@users.noreply.github.com> Co-authored-by: xiexinch <xiexinch@outlook.com> Co-authored-by: 小飞猪 <106524776+ooooo-create@users.noreply.github.com> 2023-09-20 21:20:26 +08:00			`# Copyright (c) OpenMMLab. All rights reserved.`
			`import argparse`
			`import os.path as osp`
			`from collections import OrderedDict`

			`import mmengine`
			`import torch`
			`from mmengine.runner import CheckpointLoader`


			`def convert_vitlayer(paras):`
			`new_para_name = ''`
			`if paras[0] == 'ln_1':`
			`new_para_name = '.'.join(['ln1'] + paras[1:])`
			`elif paras[0] == 'attn':`
			`new_para_name = '.'.join(['attn.attn'] + paras[1:])`
			`elif paras[0] == 'ln_2':`
			`new_para_name = '.'.join(['ln2'] + paras[1:])`
			`elif paras[0] == 'mlp':`
			`if paras[1] == 'c_fc':`
			`new_para_name = '.'.join(['ffn.layers.0.0'] + paras[-1:])`
			`else:`
			`new_para_name = '.'.join(['ffn.layers.1'] + paras[-1:])`
			`else:`
			`print(f'Wrong for {paras}')`
			`return new_para_name`


			`def convert_translayer(paras):`
			`new_para_name = ''`
			`if paras[0] == 'attn':`
			`new_para_name = '.'.join(['attentions.0.attn'] + paras[1:])`
			`elif paras[0] == 'ln_1':`
			`new_para_name = '.'.join(['norms.0'] + paras[1:])`
			`elif paras[0] == 'ln_2':`
			`new_para_name = '.'.join(['norms.1'] + paras[1:])`
			`elif paras[0] == 'mlp':`
			`if paras[1] == 'c_fc':`
			`new_para_name = '.'.join(['ffns.0.layers.0.0'] + paras[2:])`
			`elif paras[1] == 'c_proj':`
			`new_para_name = '.'.join(['ffns.0.layers.1'] + paras[2:])`
			`else:`
			`print(f'Wrong for {paras}')`
			`else:`
			`print(f'Wrong for {paras}')`
			`return new_para_name`


			`def convert_key_name(ckpt, visual_split):`
			`new_ckpt = OrderedDict()`
			`for k, v in ckpt.items():`
			`key_list = k.split('.')`
			`if key_list[0] == 'visual':`
			`new_transform_name = 'image_encoder'`
			`if key_list[1] == 'class_embedding':`
			`new_name = '.'.join([new_transform_name, 'cls_token'])`
			`elif key_list[1] == 'positional_embedding':`
			`new_name = '.'.join([new_transform_name, 'pos_embed'])`
			`elif key_list[1] == 'conv1':`
			`new_name = '.'.join([`
			`new_transform_name, 'patch_embed.projection', key_list[2]`
			`])`
			`elif key_list[1] == 'ln_pre':`
			`new_name = '.'.join(`
			`[new_transform_name, key_list[1], key_list[2]])`
			`elif key_list[1] == 'transformer':`
			`new_layer_name = 'layers'`
			`layer_index = key_list[3]`
			`paras = key_list[4:]`
			`if int(layer_index) < visual_split:`
			`new_para_name = convert_vitlayer(paras)`
			`new_name = '.'.join([`
			`new_transform_name, new_layer_name, layer_index,`
			`new_para_name`
			`])`
			`else:`
			`new_para_name = convert_translayer(paras)`
			`new_transform_name = 'decode_head.rec_with_attnbias'`
			`new_layer_name = 'layers'`
			`layer_index = str(int(layer_index) - visual_split)`
			`new_name = '.'.join([`
			`new_transform_name, new_layer_name, layer_index,`
			`new_para_name`
			`])`
			`elif key_list[1] == 'proj':`
			`new_name = 'decode_head.rec_with_attnbias.proj.weight'`
			`elif key_list[1] == 'ln_post':`
			`new_name = k.replace('visual', 'decode_head.rec_with_attnbias')`
			`else:`
			`print(f'pop parameter: {k}')`
			`continue`
			`else:`
			`text_encoder_name = 'text_encoder'`
			`if key_list[0] == 'transformer':`
			`layer_name = 'transformer'`
			`layer_index = key_list[2]`
			`paras = key_list[3:]`
			`new_para_name = convert_translayer(paras)`
			`new_name = '.'.join([`
			`text_encoder_name, layer_name, layer_index, new_para_name`
			`])`
			`elif key_list[0] in [`
			`'positional_embedding', 'text_projection', 'bg_embed',`
			`'attn_mask', 'logit_scale', 'token_embedding', 'ln_final'`
			`]:`
			`new_name = 'text_encoder.' + k`
			`else:`
			`print(f'pop parameter: {k}')`
			`continue`
			`new_ckpt[new_name] = v`

			`return new_ckpt`


			`def convert_tensor(ckpt):`
			`cls_token = ckpt['image_encoder.cls_token']`
			`new_cls_token = cls_token.unsqueeze(0).unsqueeze(0)`
			`ckpt['image_encoder.cls_token'] = new_cls_token`
			`pos_embed = ckpt['image_encoder.pos_embed']`
			`new_pos_embed = pos_embed.unsqueeze(0)`
			`ckpt['image_encoder.pos_embed'] = new_pos_embed`
			`proj_weight = ckpt['decode_head.rec_with_attnbias.proj.weight']`
			`new_proj_weight = proj_weight.transpose(1, 0)`
			`ckpt['decode_head.rec_with_attnbias.proj.weight'] = new_proj_weight`
			`return ckpt`


			`def main():`
			`parser = argparse.ArgumentParser(`
			`description='Convert keys in timm pretrained vit models to '`
			`'MMSegmentation style.')`
			`parser.add_argument('src', help='src model path or url')`
			`# The dst path must be a full path of the new checkpoint.`
			`parser.add_argument('dst', help='save path')`
			`args = parser.parse_args()`

			`if any([s in args.src for s in ['B-16', 'b16', 'base_patch16']]):`
			`visual_split = 9`
			`elif any([s in args.src for s in ['L-14', 'l14', 'large_patch14']]):`
			`visual_split = 18`
			`else:`
			`print('Make sure the clip model is ViT-B/16 or ViT-L/14!')`
			`visual_split = -1`
			`checkpoint = CheckpointLoader.load_checkpoint(args.src, map_location='cpu')`
			`if isinstance(checkpoint, torch.jit.RecursiveScriptModule):`
			`state_dict = checkpoint.state_dict()`
			`else:`
			`if 'state_dict' in checkpoint:`
			`# timm checkpoint`
			`state_dict = checkpoint['state_dict']`
			`elif 'model' in checkpoint:`
			`# deit checkpoint`
			`state_dict = checkpoint['model']`
			`else:`
			`state_dict = checkpoint`
			`weight = convert_key_name(state_dict, visual_split)`
			`weight = convert_tensor(weight)`
			`mmengine.mkdir_or_exist(osp.dirname(args.dst))`
			`torch.save(weight, args.dst)`


			`if __name__ == '__main__':`
			`main()`