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load_pytorch_weights.py
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load_pytorch_weights.py
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# Copyright (c) 2021 PPViT Authors. All Rights Reserved.
#
# 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.
"""convert pytorch model weights to paddle pdparams"""
import os
import numpy as np
import paddle
import torch
import timm
from rest import build_rest as build_model
from config import get_config
from pth_rest import *
def print_model_named_params(model):
print('----------------------------------')
for name, param in model.named_parameters():
print(name, param.shape)
print('----------------------------------')
def print_model_named_buffers(model):
print('----------------------------------')
for name, param in model.named_buffers():
print(name, param.shape)
print('----------------------------------')
def torch_to_paddle_mapping(model_name, config):
mapping = []
layer_mapping = [
('stem.conv1', 'stem.conv1'),
('stem.norm1', 'stem.norm1'),
('stem.conv2', 'stem.conv2'),
('stem.norm2', 'stem.norm2'),
('stem.conv3', 'stem.conv3'),
('stem.pos.pa_conv', 'stem.pos.pa_conv'),
]
mapping.extend(layer_mapping)
for idx in range(3):
layer_mapping = [
(f'patch_embed_{idx+2}.conv', f'patch_embeds.{idx}.conv'),
(f'patch_embed_{idx+2}.norm', f'patch_embeds.{idx}.norm'),
(f'patch_embed_{idx+2}.pos.pa_conv', f'patch_embeds.{idx}.pos.pa_conv'),
]
mapping.extend(layer_mapping)
for stage_idx, depth in enumerate(config.MODEL.DEPTHS):
for block_idx in range(depth):
th_prefix = f'stage{stage_idx+1}.{block_idx}'
pp_prefix = f'stages.{stage_idx}.{block_idx}'
layer_mapping = [
(f'{th_prefix}.norm1', f'{pp_prefix}.norm1'),
(f'{th_prefix}.attn.q', f'{pp_prefix}.attn.q'),
(f'{th_prefix}.attn.kv', f'{pp_prefix}.attn.kv'),
(f'{th_prefix}.attn.sr', f'{pp_prefix}.attn.sr'),
(f'{th_prefix}.attn.sr_norm', f'{pp_prefix}.attn.sr_norm'),
(f'{th_prefix}.attn.proj', f'{pp_prefix}.attn.proj'),
(f'{th_prefix}.attn.transform_conv', f'{pp_prefix}.attn.transform_conv'),
(f'{th_prefix}.norm2', f'{pp_prefix}.norm2'),
(f'{th_prefix}.mlp.fc1', f'{pp_prefix}.mlp.fc1'),
(f'{th_prefix}.mlp.fc2', f'{pp_prefix}.mlp.fc2'),
]
mapping.extend(layer_mapping)
head_mapping = [
('norm', 'norm'),
('head', 'head'),
]
mapping.extend(head_mapping)
return mapping
def convert(torch_model, paddle_model, model_name, config):
def _set_value(th_name, pd_name, transpose=True):
th_shape = th_params[th_name].shape
pd_shape = tuple(pd_params[pd_name].shape) # paddle shape default type is list
#assert th_shape == pd_shape, f'{th_shape} != {pd_shape}'
print(f'**SET** {th_name} {th_shape} **TO** {pd_name} {pd_shape}')
if isinstance(th_params[th_name], torch.nn.parameter.Parameter):
value = th_params[th_name].data.numpy()
else:
value = th_params[th_name].numpy()
if len(value.shape) == 2 and transpose:
value = value.transpose((1, 0))
pd_params[pd_name].set_value(value)
# 1. get paddle and torch model parameters
pd_params = {}
th_params = {}
for name, param in paddle_model.named_parameters():
pd_params[name] = param
for name, param in torch_model.named_parameters():
th_params[name] = param
for name, param in paddle_model.named_buffers():
pd_params[name] = param
for name, param in torch_model.named_buffers():
th_params[name] = param
# 2. get name mapping pairs
mapping = torch_to_paddle_mapping(model_name, config)
missing_keys_th = []
missing_keys_pd = []
zip_map = list(zip(*mapping))
th_keys = list(zip_map[0])
pd_keys = list(zip_map[1])
for key in th_params:
missing = False
if key not in th_keys:
missing = True
if key.endswith('.weight'):
if key[:-7] in th_keys:
missing = False
if key.endswith('.bias'):
if key[:-5] in th_keys:
missing = False
if key.endswith('.running_mean'):
if key[:-13] in th_keys:
missing = False
if key.endswith('.running_var'):
if key[:-12] in th_keys:
missing = False
if key.endswith('num_batches_tracked'):
missing = False
if missing:
missing_keys_th.append(key)
for key in pd_params:
missing = False
if key not in pd_keys:
missing = True
if key.endswith('.weight'):
if key[:-7] in pd_keys:
missing = False
if key.endswith('.bias'):
if key[:-5] in pd_keys:
missing = False
if key.endswith('._mean'):
if key[:-6] in pd_keys:
missing = False
if key.endswith('._variance'):
if key[:-10] in pd_keys:
missing = False
if missing:
missing_keys_pd.append(key)
print('====================================')
print('missing_keys_pytorch:')
print(missing_keys_th)
print('missing_keys_paddle:')
print(missing_keys_pd)
print('====================================')
# 3. set torch param values to paddle params: may needs transpose on weights
for th_name, pd_name in mapping:
if th_name in th_params and pd_name in pd_params: # nn.Parameters
#if 'attention_biases' in th_name or 'attention_bias_idxs' in th_name:
# _set_value(th_name, pd_name, transpose=False)
#else:
# _set_value(th_name, pd_name)
_set_value(th_name, pd_name)
else:
if f'{th_name}.weight' in th_params and f'{pd_name}.weight' in pd_params:
th_name_w = f'{th_name}.weight'
pd_name_w = f'{pd_name}.weight'
_set_value(th_name_w, pd_name_w)
if f'{th_name}.bias' in th_params and f'{pd_name}.bias' in pd_params:
th_name_b = f'{th_name}.bias'
pd_name_b = f'{pd_name}.bias'
_set_value(th_name_b, pd_name_b)
if f'{th_name}.running_mean' in th_params and f'{pd_name}._mean' in pd_params:
th_name_w = f'{th_name}.running_mean'
pd_name_w = f'{pd_name}._mean'
_set_value(th_name_w, pd_name_w)
if f'{th_name}.running_var' in th_params and f'{pd_name}._variance' in pd_params:
th_name_b = f'{th_name}.running_var'
pd_name_b = f'{pd_name}._variance'
_set_value(th_name_b, pd_name_b)
return paddle_model
def main():
paddle.set_device('cpu')
model_name_list = [
"rest_lite",
"rest_small",
"rest_base",
"rest_large",
]
for model_name in model_name_list:
print(f'============= NOW: {model_name} =============')
sz = 224
config = get_config(f'./configs/{model_name}.yaml')
paddle_model = build_model(config)
paddle_model.eval()
#print_model_named_params(paddle_model)
#print_model_named_buffers(paddle_model)
#print(paddle_model)
print('+++++++++++++++++++++++++++++++++++')
print('+++++++++++++++++++++++++++++++++++')
print('+++++++++++++++++++++++++++++++++++')
device = torch.device('cpu')
#torch_model = timm.create_model(model_name, pretrained=True)
torch_model = eval(f'{model_name}()')
torch_model.load_state_dict(torch.load(f'./rest_pth/{model_name}.pth'))
torch_model.eval()
torch_model = torch_model.to(device)
#print_model_named_params(torch_model)
#print_model_named_buffers(torch_model)
#print(torch_model)
# convert weights
paddle_model = convert(torch_model, paddle_model, model_name, config)
# check correctness
x = np.random.randn(2, 3, sz, sz).astype('float32')
x_paddle = paddle.to_tensor(x)
x_torch = torch.Tensor(x).to(device)
out_torch = torch_model(x_torch)
print('+++++++++++++++++++++++++++++++++++')
print('+++++++++++++++++++++++++++++++++++')
out_paddle = paddle_model(x_paddle)
out_torch = out_torch.data.cpu().numpy()
out_paddle = out_paddle.cpu().numpy()
print(out_torch.shape, out_paddle.shape)
print(out_torch[0, 0:100])
print('========================================================')
print(out_paddle[0, 0:100])
assert np.allclose(out_torch, out_paddle, atol = 1e-2)
# save weights for paddle model
model_path = os.path.join(f'./{model_name}.pdparams')
paddle.save(paddle_model.state_dict(), model_path)
print(f'{model_name} done')
print('all done')
if __name__ == "__main__":
main()