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# Copyright (c) OpenMMLab. All rights reserved.
import pytest
import torch
from mmcv.utils import ConfigDict
from mmdet.models.utils.transformer import (AdaptivePadding,
DetrTransformerDecoder,
DetrTransformerEncoder, PatchEmbed,
PatchMerging, Transformer)
def test_adaptive_padding():
for padding in ('same', 'corner'):
kernel_size = 16
stride = 16
dilation = 1
input = torch.rand(1, 1, 15, 17)
pool = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
out = pool(input)
# padding to divisible by 16
assert (out.shape[2], out.shape[3]) == (16, 32)
input = torch.rand(1, 1, 16, 17)
out = pool(input)
# padding to divisible by 16
assert (out.shape[2], out.shape[3]) == (16, 32)
kernel_size = (2, 2)
stride = (2, 2)
dilation = (1, 1)
adap_pad = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
input = torch.rand(1, 1, 11, 13)
out = adap_pad(input)
# padding to divisible by 2
assert (out.shape[2], out.shape[3]) == (12, 14)
kernel_size = (2, 2)
stride = (10, 10)
dilation = (1, 1)
adap_pad = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
input = torch.rand(1, 1, 10, 13)
out = adap_pad(input)
# no padding
assert (out.shape[2], out.shape[3]) == (10, 13)
kernel_size = (11, 11)
adap_pad = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
input = torch.rand(1, 1, 11, 13)
out = adap_pad(input)
# all padding
assert (out.shape[2], out.shape[3]) == (21, 21)
# test padding as kernel is (7,9)
input = torch.rand(1, 1, 11, 13)
stride = (3, 4)
kernel_size = (4, 5)
dilation = (2, 2)
# actually (7, 9)
adap_pad = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
dilation_out = adap_pad(input)
assert (dilation_out.shape[2], dilation_out.shape[3]) == (16, 21)
kernel_size = (7, 9)
dilation = (1, 1)
adap_pad = AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=padding)
kernel79_out = adap_pad(input)
assert (kernel79_out.shape[2], kernel79_out.shape[3]) == (16, 21)
assert kernel79_out.shape == dilation_out.shape
# assert only support "same" "corner"
with pytest.raises(AssertionError):
AdaptivePadding(
kernel_size=kernel_size,
stride=stride,
dilation=dilation,
padding=1)
def test_patch_embed():
B = 2
H = 3
W = 4
C = 3
embed_dims = 10
kernel_size = 3
stride = 1
dummy_input = torch.rand(B, C, H, W)
patch_merge_1 = PatchEmbed(
in_channels=C,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=0,
dilation=1,
norm_cfg=None)
x1, shape = patch_merge_1(dummy_input)
# test out shape
assert x1.shape == (2, 2, 10)
# test outsize is correct
assert shape == (1, 2)
# test L = out_h * out_w
assert shape[0] * shape[1] == x1.shape[1]
B = 2
H = 10
W = 10
C = 3
embed_dims = 10
kernel_size = 5
stride = 2
dummy_input = torch.rand(B, C, H, W)
# test dilation
patch_merge_2 = PatchEmbed(
in_channels=C,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=0,
dilation=2,
norm_cfg=None,
)
x2, shape = patch_merge_2(dummy_input)
# test out shape
assert x2.shape == (2, 1, 10)
# test outsize is correct
assert shape == (1, 1)
# test L = out_h * out_w
assert shape[0] * shape[1] == x2.shape[1]
stride = 2
input_size = (10, 10)
dummy_input = torch.rand(B, C, H, W)
# test stride and norm
patch_merge_3 = PatchEmbed(
in_channels=C,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=0,
dilation=2,
norm_cfg=dict(type='LN'),
input_size=input_size)
x3, shape = patch_merge_3(dummy_input)
# test out shape
assert x3.shape == (2, 1, 10)
# test outsize is correct
assert shape == (1, 1)
# test L = out_h * out_w
assert shape[0] * shape[1] == x3.shape[1]
# test the init_out_size with nn.Unfold
assert patch_merge_3.init_out_size[1] == (input_size[0] - 2 * 4 -
1) // 2 + 1
assert patch_merge_3.init_out_size[0] == (input_size[0] - 2 * 4 -
1) // 2 + 1
H = 11
W = 12
input_size = (H, W)
dummy_input = torch.rand(B, C, H, W)
# test stride and norm
patch_merge_3 = PatchEmbed(
in_channels=C,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=0,
dilation=2,
norm_cfg=dict(type='LN'),
input_size=input_size)
_, shape = patch_merge_3(dummy_input)
# when input_size equal to real input
# the out_size should be equal to `init_out_size`
assert shape == patch_merge_3.init_out_size
input_size = (H, W)
dummy_input = torch.rand(B, C, H, W)
# test stride and norm
patch_merge_3 = PatchEmbed(
in_channels=C,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=0,
dilation=2,
norm_cfg=dict(type='LN'),
input_size=input_size)
_, shape = patch_merge_3(dummy_input)
# when input_size equal to real input
# the out_size should be equal to `init_out_size`
assert shape == patch_merge_3.init_out_size
# test adap padding
for padding in ('same', 'corner'):
in_c = 2
embed_dims = 3
B = 2
# test stride is 1
input_size = (5, 5)
kernel_size = (5, 5)
stride = (1, 1)
dilation = 1
bias = False
x = torch.rand(B, in_c, *input_size)
patch_embed = PatchEmbed(
in_channels=in_c,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_embed(x)
assert x_out.size() == (B, 25, 3)
assert out_size == (5, 5)
assert x_out.size(1) == out_size[0] * out_size[1]
# test kernel_size == stride
input_size = (5, 5)
kernel_size = (5, 5)
stride = (5, 5)
dilation = 1
bias = False
x = torch.rand(B, in_c, *input_size)
patch_embed = PatchEmbed(
in_channels=in_c,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_embed(x)
assert x_out.size() == (B, 1, 3)
assert out_size == (1, 1)
assert x_out.size(1) == out_size[0] * out_size[1]
# test kernel_size == stride
input_size = (6, 5)
kernel_size = (5, 5)
stride = (5, 5)
dilation = 1
bias = False
x = torch.rand(B, in_c, *input_size)
patch_embed = PatchEmbed(
in_channels=in_c,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_embed(x)
assert x_out.size() == (B, 2, 3)
assert out_size == (2, 1)
assert x_out.size(1) == out_size[0] * out_size[1]
# test different kernel_size with different stride
input_size = (6, 5)
kernel_size = (6, 2)
stride = (6, 2)
dilation = 1
bias = False
x = torch.rand(B, in_c, *input_size)
patch_embed = PatchEmbed(
in_channels=in_c,
embed_dims=embed_dims,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_embed(x)
assert x_out.size() == (B, 3, 3)
assert out_size == (1, 3)
assert x_out.size(1) == out_size[0] * out_size[1]
def test_patch_merging():
# Test the model with int padding
in_c = 3
out_c = 4
kernel_size = 3
stride = 3
padding = 1
dilation = 1
bias = False
# test the case `pad_to_stride` is False
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
B, L, C = 1, 100, 3
input_size = (10, 10)
x = torch.rand(B, L, C)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (1, 16, 4)
assert out_size == (4, 4)
# assert out size is consistent with real output
assert x_out.size(1) == out_size[0] * out_size[1]
in_c = 4
out_c = 5
kernel_size = 6
stride = 3
padding = 2
dilation = 2
bias = False
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
B, L, C = 1, 100, 4
input_size = (10, 10)
x = torch.rand(B, L, C)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (1, 4, 5)
assert out_size == (2, 2)
# assert out size is consistent with real output
assert x_out.size(1) == out_size[0] * out_size[1]
# Test with adaptive padding
for padding in ('same', 'corner'):
in_c = 2
out_c = 3
B = 2
# test stride is 1
input_size = (5, 5)
kernel_size = (5, 5)
stride = (1, 1)
dilation = 1
bias = False
L = input_size[0] * input_size[1]
x = torch.rand(B, L, in_c)
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (B, 25, 3)
assert out_size == (5, 5)
assert x_out.size(1) == out_size[0] * out_size[1]
# test kernel_size == stride
input_size = (5, 5)
kernel_size = (5, 5)
stride = (5, 5)
dilation = 1
bias = False
L = input_size[0] * input_size[1]
x = torch.rand(B, L, in_c)
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (B, 1, 3)
assert out_size == (1, 1)
assert x_out.size(1) == out_size[0] * out_size[1]
# test kernel_size == stride
input_size = (6, 5)
kernel_size = (5, 5)
stride = (5, 5)
dilation = 1
bias = False
L = input_size[0] * input_size[1]
x = torch.rand(B, L, in_c)
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (B, 2, 3)
assert out_size == (2, 1)
assert x_out.size(1) == out_size[0] * out_size[1]
# test different kernel_size with different stride
input_size = (6, 5)
kernel_size = (6, 2)
stride = (6, 2)
dilation = 1
bias = False
L = input_size[0] * input_size[1]
x = torch.rand(B, L, in_c)
patch_merge = PatchMerging(
in_channels=in_c,
out_channels=out_c,
kernel_size=kernel_size,
stride=stride,
padding=padding,
dilation=dilation,
bias=bias)
x_out, out_size = patch_merge(x, input_size)
assert x_out.size() == (B, 3, 3)
assert out_size == (1, 3)
assert x_out.size(1) == out_size[0] * out_size[1]
def test_detr_transformer_dencoder_encoder_layer():
config = ConfigDict(
dict(
return_intermediate=True,
num_layers=6,
transformerlayers=dict(
type='DetrTransformerDecoderLayer',
attn_cfgs=dict(
type='MultiheadAttention',
embed_dims=256,
num_heads=8,
dropout=0.1),
feedforward_channels=2048,
ffn_dropout=0.1,
operation_order=(
'norm',
'self_attn',
'norm',
'cross_attn',
'norm',
'ffn',
))))
assert DetrTransformerDecoder(**config).layers[0].pre_norm
assert len(DetrTransformerDecoder(**config).layers) == 6
DetrTransformerDecoder(**config)
with pytest.raises(AssertionError):
config = ConfigDict(
dict(
return_intermediate=True,
num_layers=6,
transformerlayers=[
dict(
type='DetrTransformerDecoderLayer',
attn_cfgs=dict(
type='MultiheadAttention',
embed_dims=256,
num_heads=8,
dropout=0.1),
feedforward_channels=2048,
ffn_dropout=0.1,
operation_order=('self_attn', 'norm', 'cross_attn',
'norm', 'ffn', 'norm'))
] * 5))
DetrTransformerDecoder(**config)
config = ConfigDict(
dict(
num_layers=6,
transformerlayers=dict(
type='DetrTransformerDecoderLayer',
attn_cfgs=dict(
type='MultiheadAttention',
embed_dims=256,
num_heads=8,
dropout=0.1),
feedforward_channels=2048,
ffn_dropout=0.1,
operation_order=('norm', 'self_attn', 'norm', 'cross_attn',
'norm', 'ffn', 'norm'))))
with pytest.raises(AssertionError):
# len(operation_order) == 6
DetrTransformerEncoder(**config)
def test_transformer():
config = ConfigDict(
dict(
encoder=dict(
type='DetrTransformerEncoder',
num_layers=6,
transformerlayers=dict(
type='BaseTransformerLayer',
attn_cfgs=[
dict(
type='MultiheadAttention',
embed_dims=256,
num_heads=8,
dropout=0.1)
],
feedforward_channels=2048,
ffn_dropout=0.1,
operation_order=('self_attn', 'norm', 'ffn', 'norm'))),
decoder=dict(
type='DetrTransformerDecoder',
return_intermediate=True,
num_layers=6,
transformerlayers=dict(
type='DetrTransformerDecoderLayer',
attn_cfgs=dict(
type='MultiheadAttention',
embed_dims=256,
num_heads=8,
dropout=0.1),
feedforward_channels=2048,
ffn_dropout=0.1,
operation_order=('self_attn', 'norm', 'cross_attn', 'norm',
'ffn', 'norm')),
)))
transformer = Transformer(**config)
transformer.init_weights()
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