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A10G
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import torch
from .position import PositionEmbeddingSine
def split_feature(feature,
num_splits=2,
channel_last=False,
):
if channel_last: # [B, H, W, C]
b, h, w, c = feature.size()
assert h % num_splits == 0 and w % num_splits == 0
b_new = b * num_splits * num_splits
h_new = h // num_splits
w_new = w // num_splits
feature = feature.view(b, num_splits, h // num_splits, num_splits, w // num_splits, c
).permute(0, 1, 3, 2, 4, 5).reshape(b_new, h_new, w_new, c) # [B*K*K, H/K, W/K, C]
else: # [B, C, H, W]
b, c, h, w = feature.size()
assert h % num_splits == 0 and w % num_splits == 0
b_new = b * num_splits * num_splits
h_new = h // num_splits
w_new = w // num_splits
feature = feature.view(b, c, num_splits, h // num_splits, num_splits, w // num_splits
).permute(0, 2, 4, 1, 3, 5).reshape(b_new, c, h_new, w_new) # [B*K*K, C, H/K, W/K]
return feature
def merge_splits(splits,
num_splits=2,
channel_last=False,
):
if channel_last: # [B*K*K, H/K, W/K, C]
b, h, w, c = splits.size()
new_b = b // num_splits // num_splits
splits = splits.view(new_b, num_splits, num_splits, h, w, c)
merge = splits.permute(0, 1, 3, 2, 4, 5).contiguous().view(
new_b, num_splits * h, num_splits * w, c) # [B, H, W, C]
else: # [B*K*K, C, H/K, W/K]
b, c, h, w = splits.size()
new_b = b // num_splits // num_splits
splits = splits.view(new_b, num_splits, num_splits, c, h, w)
merge = splits.permute(0, 3, 1, 4, 2, 5).contiguous().view(
new_b, c, num_splits * h, num_splits * w) # [B, C, H, W]
return merge
def normalize_img(img0, img1):
# loaded images are in [0, 255]
# normalize by ImageNet mean and std
mean = torch.tensor([0.485, 0.456, 0.406]).view(1, 3, 1, 1).to(img1.device)
std = torch.tensor([0.229, 0.224, 0.225]).view(1, 3, 1, 1).to(img1.device)
img0 = (img0 / 255. - mean) / std
img1 = (img1 / 255. - mean) / std
return img0, img1
def feature_add_position(feature0, feature1, attn_splits, feature_channels):
pos_enc = PositionEmbeddingSine(num_pos_feats=feature_channels // 2)
if attn_splits > 1: # add position in splited window
feature0_splits = split_feature(feature0, num_splits=attn_splits)
feature1_splits = split_feature(feature1, num_splits=attn_splits)
position = pos_enc(feature0_splits)
feature0_splits = feature0_splits + position
feature1_splits = feature1_splits + position
feature0 = merge_splits(feature0_splits, num_splits=attn_splits)
feature1 = merge_splits(feature1_splits, num_splits=attn_splits)
else:
position = pos_enc(feature0)
feature0 = feature0 + position
feature1 = feature1 + position
return feature0, feature1
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