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from itertools import repeat | |
import collections.abc | |
import logging | |
import math | |
import numpy as np | |
import torch | |
from torch import nn as nn | |
from torchvision.ops.misc import FrozenBatchNorm2d | |
import torch.nn.functional as F | |
# open CLIP | |
def resize_clip_pos_embed(state_dict, model, interpolation: str = 'bicubic', seq_dim=1): | |
# Rescale the grid of position embeddings when loading from state_dict | |
old_pos_embed = state_dict.get('visual.positional_embedding', None) | |
if old_pos_embed is None or not hasattr(model.visual, 'grid_size'): | |
return | |
grid_size = to_2tuple(model.visual.grid_size) | |
extra_tokens = 1 # FIXME detect different token configs (ie no class token, or more) | |
new_seq_len = grid_size[0] * grid_size[1] + extra_tokens | |
if new_seq_len == old_pos_embed.shape[0]: | |
return | |
if extra_tokens: | |
pos_emb_tok, pos_emb_img = old_pos_embed[:extra_tokens], old_pos_embed[extra_tokens:] | |
else: | |
pos_emb_tok, pos_emb_img = None, old_pos_embed | |
old_grid_size = to_2tuple(int(math.sqrt(len(pos_emb_img)))) | |
logging.info('Resizing position embedding grid-size from %s to %s', old_grid_size, grid_size) | |
pos_emb_img = pos_emb_img.reshape(1, old_grid_size[0], old_grid_size[1], -1).permute(0, 3, 1, 2) | |
pos_emb_img = F.interpolate( | |
pos_emb_img, | |
size=grid_size, | |
mode=interpolation, | |
align_corners=True, | |
) | |
pos_emb_img = pos_emb_img.permute(0, 2, 3, 1).reshape(1, grid_size[0] * grid_size[1], -1)[0] | |
if pos_emb_tok is not None: | |
new_pos_embed = torch.cat([pos_emb_tok, pos_emb_img], dim=0) | |
else: | |
new_pos_embed = pos_emb_img | |
state_dict['visual.positional_embedding'] = new_pos_embed | |
def resize_visual_pos_embed(state_dict, model, interpolation: str = 'bicubic', seq_dim=1): | |
# Rescale the grid of position embeddings when loading from state_dict | |
old_pos_embed = state_dict.get('positional_embedding', None) | |
if old_pos_embed is None or not hasattr(model.visual, 'grid_size'): | |
return | |
grid_size = to_2tuple(model.visual.grid_size) | |
extra_tokens = 1 # FIXME detect different token configs (ie no class token, or more) | |
new_seq_len = grid_size[0] * grid_size[1] + extra_tokens | |
if new_seq_len == old_pos_embed.shape[0]: | |
return | |
if extra_tokens: | |
pos_emb_tok, pos_emb_img = old_pos_embed[:extra_tokens], old_pos_embed[extra_tokens:] | |
else: | |
pos_emb_tok, pos_emb_img = None, old_pos_embed | |
old_grid_size = to_2tuple(int(math.sqrt(len(pos_emb_img)))) | |
logging.info('Resizing position embedding grid-size from %s to %s', old_grid_size, grid_size) | |
pos_emb_img = pos_emb_img.reshape(1, old_grid_size[0], old_grid_size[1], -1).permute(0, 3, 1, 2) | |
pos_emb_img = F.interpolate( | |
pos_emb_img, | |
size=grid_size, | |
mode=interpolation, | |
align_corners=True, | |
) | |
pos_emb_img = pos_emb_img.permute(0, 2, 3, 1).reshape(1, grid_size[0] * grid_size[1], -1)[0] | |
if pos_emb_tok is not None: | |
new_pos_embed = torch.cat([pos_emb_tok, pos_emb_img], dim=0) | |
else: | |
new_pos_embed = pos_emb_img | |
state_dict['positional_embedding'] = new_pos_embed | |
def resize_evaclip_pos_embed(state_dict, model, interpolation: str = 'bicubic', seq_dim=1): | |
all_keys = list(state_dict.keys()) | |
# interpolate position embedding | |
if 'visual.pos_embed' in state_dict: | |
pos_embed_checkpoint = state_dict['visual.pos_embed'] | |
embedding_size = pos_embed_checkpoint.shape[-1] | |
num_patches = model.visual.patch_embed.num_patches | |
num_extra_tokens = model.visual.pos_embed.shape[-2] - num_patches | |
# height (== width) for the checkpoint position embedding | |
orig_size = int((pos_embed_checkpoint.shape[-2] - num_extra_tokens) ** 0.5) | |
# height (== width) for the new position embedding | |
new_size = int(num_patches ** 0.5) | |
# class_token and dist_token are kept unchanged | |
if orig_size != new_size: | |
print("Position interpolate from %dx%d to %dx%d" % (orig_size, orig_size, new_size, new_size)) | |
extra_tokens = pos_embed_checkpoint[:, :num_extra_tokens] | |
# only the position tokens are interpolated | |
pos_tokens = pos_embed_checkpoint[:, num_extra_tokens:] | |
pos_tokens = pos_tokens.reshape(-1, orig_size, orig_size, embedding_size).permute(0, 3, 1, 2) | |
pos_tokens = torch.nn.functional.interpolate( | |
pos_tokens, size=(new_size, new_size), mode='bicubic', align_corners=False) | |
pos_tokens = pos_tokens.permute(0, 2, 3, 1).flatten(1, 2) | |
new_pos_embed = torch.cat((extra_tokens, pos_tokens), dim=1) | |
state_dict['visual.pos_embed'] = new_pos_embed | |
patch_embed_proj = state_dict['visual.patch_embed.proj.weight'] | |
patch_size = model.visual.patch_embed.patch_size | |
state_dict['visual.patch_embed.proj.weight'] = torch.nn.functional.interpolate( | |
patch_embed_proj.float(), size=patch_size, mode='bicubic', align_corners=False) | |
def resize_eva_pos_embed(state_dict, model, interpolation: str = 'bicubic', seq_dim=1): | |
all_keys = list(state_dict.keys()) | |
# interpolate position embedding | |
if 'pos_embed' in state_dict: | |
pos_embed_checkpoint = state_dict['pos_embed'] | |
embedding_size = pos_embed_checkpoint.shape[-1] | |
num_patches = model.visual.patch_embed.num_patches | |
num_extra_tokens = model.visual.pos_embed.shape[-2] - num_patches | |
# height (== width) for the checkpoint position embedding | |
orig_size = int((pos_embed_checkpoint.shape[-2] - num_extra_tokens) ** 0.5) | |
# height (== width) for the new position embedding | |
new_size = int(num_patches ** 0.5) | |
# class_token and dist_token are kept unchanged | |
if orig_size != new_size: | |
print("Position interpolate from %dx%d to %dx%d" % (orig_size, orig_size, new_size, new_size)) | |
extra_tokens = pos_embed_checkpoint[:, :num_extra_tokens] | |
# only the position tokens are interpolated | |
pos_tokens = pos_embed_checkpoint[:, num_extra_tokens:] | |
pos_tokens = pos_tokens.reshape(-1, orig_size, orig_size, embedding_size).permute(0, 3, 1, 2) | |
pos_tokens = torch.nn.functional.interpolate( | |
pos_tokens, size=(new_size, new_size), mode='bicubic', align_corners=False) | |
pos_tokens = pos_tokens.permute(0, 2, 3, 1).flatten(1, 2) | |
new_pos_embed = torch.cat((extra_tokens, pos_tokens), dim=1) | |
state_dict['pos_embed'] = new_pos_embed | |
patch_embed_proj = state_dict['patch_embed.proj.weight'] | |
patch_size = model.visual.patch_embed.patch_size | |
state_dict['patch_embed.proj.weight'] = torch.nn.functional.interpolate( | |
patch_embed_proj.float(), size=patch_size, mode='bicubic', align_corners=False) | |
def resize_rel_pos_embed(state_dict, model, interpolation: str = 'bicubic', seq_dim=1): | |
all_keys = list(state_dict.keys()) | |
for key in all_keys: | |
if "relative_position_index" in key: | |
state_dict.pop(key) | |
if "relative_position_bias_table" in key: | |
rel_pos_bias = state_dict[key] | |
src_num_pos, num_attn_heads = rel_pos_bias.size() | |
dst_num_pos, _ = model.visual.state_dict()[key].size() | |
dst_patch_shape = model.visual.patch_embed.patch_shape | |
if dst_patch_shape[0] != dst_patch_shape[1]: | |
raise NotImplementedError() | |
num_extra_tokens = dst_num_pos - (dst_patch_shape[0] * 2 - 1) * (dst_patch_shape[1] * 2 - 1) | |
src_size = int((src_num_pos - num_extra_tokens) ** 0.5) | |
dst_size = int((dst_num_pos - num_extra_tokens) ** 0.5) | |
if src_size != dst_size: | |
print("Position interpolate for %s from %dx%d to %dx%d" % ( | |
key, src_size, src_size, dst_size, dst_size)) | |
extra_tokens = rel_pos_bias[-num_extra_tokens:, :] | |
rel_pos_bias = rel_pos_bias[:-num_extra_tokens, :] | |
def geometric_progression(a, r, n): | |
return a * (1.0 - r ** n) / (1.0 - r) | |
left, right = 1.01, 1.5 | |
while right - left > 1e-6: | |
q = (left + right) / 2.0 | |
gp = geometric_progression(1, q, src_size // 2) | |
if gp > dst_size // 2: | |
right = q | |
else: | |
left = q | |
# if q > 1.090307: | |
# q = 1.090307 | |
dis = [] | |
cur = 1 | |
for i in range(src_size // 2): | |
dis.append(cur) | |
cur += q ** (i + 1) | |
r_ids = [-_ for _ in reversed(dis)] | |
x = r_ids + [0] + dis | |
y = r_ids + [0] + dis | |
t = dst_size // 2.0 | |
dx = np.arange(-t, t + 0.1, 1.0) | |
dy = np.arange(-t, t + 0.1, 1.0) | |
print("Original positions = %s" % str(x)) | |
print("Target positions = %s" % str(dx)) | |
all_rel_pos_bias = [] | |
for i in range(num_attn_heads): | |
z = rel_pos_bias[:, i].view(src_size, src_size).float().numpy() | |
f = F.interpolate.interp2d(x, y, z, kind='cubic') | |
all_rel_pos_bias.append( | |
torch.Tensor(f(dx, dy)).contiguous().view(-1, 1).to(rel_pos_bias.device)) | |
rel_pos_bias = torch.cat(all_rel_pos_bias, dim=-1) | |
new_rel_pos_bias = torch.cat((rel_pos_bias, extra_tokens), dim=0) | |
state_dict[key] = new_rel_pos_bias | |
# interpolate position embedding | |
if 'pos_embed' in state_dict: | |
pos_embed_checkpoint = state_dict['pos_embed'] | |
embedding_size = pos_embed_checkpoint.shape[-1] | |
num_patches = model.visual.patch_embed.num_patches | |
num_extra_tokens = model.visual.pos_embed.shape[-2] - num_patches | |
# height (== width) for the checkpoint position embedding | |
orig_size = int((pos_embed_checkpoint.shape[-2] - num_extra_tokens) ** 0.5) | |
# height (== width) for the new position embedding | |
new_size = int(num_patches ** 0.5) | |
# class_token and dist_token are kept unchanged | |
if orig_size != new_size: | |
print("Position interpolate from %dx%d to %dx%d" % (orig_size, orig_size, new_size, new_size)) | |
extra_tokens = pos_embed_checkpoint[:, :num_extra_tokens] | |
# only the position tokens are interpolated | |
pos_tokens = pos_embed_checkpoint[:, num_extra_tokens:] | |
pos_tokens = pos_tokens.reshape(-1, orig_size, orig_size, embedding_size).permute(0, 3, 1, 2) | |
pos_tokens = torch.nn.functional.interpolate( | |
pos_tokens, size=(new_size, new_size), mode='bicubic', align_corners=False) | |
pos_tokens = pos_tokens.permute(0, 2, 3, 1).flatten(1, 2) | |
new_pos_embed = torch.cat((extra_tokens, pos_tokens), dim=1) | |
state_dict['pos_embed'] = new_pos_embed | |
patch_embed_proj = state_dict['patch_embed.proj.weight'] | |
patch_size = model.visual.patch_embed.patch_size | |
state_dict['patch_embed.proj.weight'] = torch.nn.functional.interpolate( | |
patch_embed_proj.float(), size=patch_size, mode='bicubic', align_corners=False) | |
def freeze_batch_norm_2d(module, module_match={}, name=''): | |
""" | |
Converts all `BatchNorm2d` and `SyncBatchNorm` layers of provided module into `FrozenBatchNorm2d`. If `module` is | |
itself an instance of either `BatchNorm2d` or `SyncBatchNorm`, it is converted into `FrozenBatchNorm2d` and | |
returned. Otherwise, the module is walked recursively and submodules are converted in place. | |
Args: | |
module (torch.nn.Module): Any PyTorch module. | |
module_match (dict): Dictionary of full module names to freeze (all if empty) | |
name (str): Full module name (prefix) | |
Returns: | |
torch.nn.Module: Resulting module | |
Inspired by https://github.com/pytorch/pytorch/blob/a5895f85be0f10212791145bfedc0261d364f103/torch/nn/modules/batchnorm.py#L762 | |
""" | |
res = module | |
is_match = True | |
if module_match: | |
is_match = name in module_match | |
if is_match and isinstance(module, (nn.modules.batchnorm.BatchNorm2d, nn.modules.batchnorm.SyncBatchNorm)): | |
res = FrozenBatchNorm2d(module.num_features) | |
res.num_features = module.num_features | |
res.affine = module.affine | |
if module.affine: | |
res.weight.data = module.weight.data.clone().detach() | |
res.bias.data = module.bias.data.clone().detach() | |
res.running_mean.data = module.running_mean.data | |
res.running_var.data = module.running_var.data | |
res.eps = module.eps | |
else: | |
for child_name, child in module.named_children(): | |
full_child_name = '.'.join([name, child_name]) if name else child_name | |
new_child = freeze_batch_norm_2d(child, module_match, full_child_name) | |
if new_child is not child: | |
res.add_module(child_name, new_child) | |
return res | |
# From PyTorch internals | |
def _ntuple(n): | |
def parse(x): | |
if isinstance(x, collections.abc.Iterable): | |
return x | |
return tuple(repeat(x, n)) | |
return parse | |
to_1tuple = _ntuple(1) | |
to_2tuple = _ntuple(2) | |
to_3tuple = _ntuple(3) | |
to_4tuple = _ntuple(4) | |
to_ntuple = lambda n, x: _ntuple(n)(x) | |
def is_logging(args): | |
def is_global_master(args): | |
return args.rank == 0 | |
def is_local_master(args): | |
return args.local_rank == 0 | |
def is_master(args, local=False): | |
return is_local_master(args) if local else is_global_master(args) | |
return is_master | |
class AllGather(torch.autograd.Function): | |
"""An autograd function that performs allgather on a tensor. | |
Performs all_gather operation on the provided tensors. | |
*** Warning ***: torch.distributed.all_gather has no gradient. | |
""" | |
def forward(ctx, tensor, rank, world_size): | |
tensors_gather = [torch.empty_like(tensor) for _ in range(world_size)] | |
torch.distributed.all_gather(tensors_gather, tensor) | |
ctx.rank = rank | |
ctx.batch_size = tensor.shape[0] | |
return torch.cat(tensors_gather, 0) | |
def backward(ctx, grad_output): | |
return ( | |
grad_output[ctx.batch_size * ctx.rank: ctx.batch_size * (ctx.rank + 1)], | |
None, | |
None | |
) | |
allgather = AllGather.apply |