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controlnet-preprocessors-only / annotator /mmpkg /mmcv /cnn /bricks /transformer.py

atatakun

Duplicate from atatakun/ControlNet-v1-1-Annotators-cpu

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	# Copyright (c) OpenMMLab. All rights reserved.
	import copy
	import warnings

	import torch
	import torch.nn as nn

	from annotator.mmpkg.mmcv import ConfigDict, deprecated_api_warning
	from annotator.mmpkg.mmcv.cnn import Linear, build_activation_layer, build_norm_layer
	from annotator.mmpkg.mmcv.runner.base_module import BaseModule, ModuleList, Sequential
	from annotator.mmpkg.mmcv.utils import build_from_cfg
	from .drop import build_dropout
	from .registry import (ATTENTION, FEEDFORWARD_NETWORK, POSITIONAL_ENCODING,
	TRANSFORMER_LAYER, TRANSFORMER_LAYER_SEQUENCE)

	# Avoid BC-breaking of importing MultiScaleDeformableAttention from this file
	try:
	from annotator.mmpkg.mmcv.ops.multi_scale_deform_attn import MultiScaleDeformableAttention # noqa F401
	warnings.warn(
	ImportWarning(
	'``MultiScaleDeformableAttention`` has been moved to '
	'``mmcv.ops.multi_scale_deform_attn``, please change original path ' # noqa E501
	'``from annotator.mmpkg.mmcv.cnn.bricks.transformer import MultiScaleDeformableAttention`` ' # noqa E501
	'to ``from annotator.mmpkg.mmcv.ops.multi_scale_deform_attn import MultiScaleDeformableAttention`` ' # noqa E501
	))

	except ImportError:
	warnings.warn('Fail to import ``MultiScaleDeformableAttention`` from '
	'``mmcv.ops.multi_scale_deform_attn``, '
	'You should install ``mmcv-full`` if you need this module. ')


	def build_positional_encoding(cfg, default_args=None):
	"""Builder for Position Encoding."""
	return build_from_cfg(cfg, POSITIONAL_ENCODING, default_args)


	def build_attention(cfg, default_args=None):
	"""Builder for attention."""
	return build_from_cfg(cfg, ATTENTION, default_args)


	def build_feedforward_network(cfg, default_args=None):
	"""Builder for feed-forward network (FFN)."""
	return build_from_cfg(cfg, FEEDFORWARD_NETWORK, default_args)


	def build_transformer_layer(cfg, default_args=None):
	"""Builder for transformer layer."""
	return build_from_cfg(cfg, TRANSFORMER_LAYER, default_args)


	def build_transformer_layer_sequence(cfg, default_args=None):
	"""Builder for transformer encoder and transformer decoder."""
	return build_from_cfg(cfg, TRANSFORMER_LAYER_SEQUENCE, default_args)


	@ATTENTION.register_module()
	class MultiheadAttention(BaseModule):
	"""A wrapper for ``torch.nn.MultiheadAttention``.

	This module implements MultiheadAttention with identity connection,
	and positional encoding is also passed as input.

	Args:
	embed_dims (int): The embedding dimension.
	num_heads (int): Parallel attention heads.
	attn_drop (float): A Dropout layer on attn_output_weights.
	Default: 0.0.
	proj_drop (float): A Dropout layer after `nn.MultiheadAttention`.
	Default: 0.0.
	dropout_layer (obj:`ConfigDict`): The dropout_layer used
	when adding the shortcut.
	init_cfg (obj:`mmcv.ConfigDict`): The Config for initialization.
	Default: None.
	batch_first (bool): When it is True, Key, Query and Value are shape of
	(batch, n, embed_dim), otherwise (n, batch, embed_dim).
	Default to False.
	"""

	def __init__(self,
	embed_dims,
	num_heads,
	attn_drop=0.,
	proj_drop=0.,
	dropout_layer=dict(type='Dropout', drop_prob=0.),
	init_cfg=None,
	batch_first=False,
	**kwargs):
	super(MultiheadAttention, self).__init__(init_cfg)
	if 'dropout' in kwargs:
	warnings.warn('The arguments `dropout` in MultiheadAttention '
	'has been deprecated, now you can separately '
	'set `attn_drop`(float), proj_drop(float), '
	'and `dropout_layer`(dict) ')
	attn_drop = kwargs['dropout']
	dropout_layer['drop_prob'] = kwargs.pop('dropout')

	self.embed_dims = embed_dims
	self.num_heads = num_heads
	self.batch_first = batch_first

	self.attn = nn.MultiheadAttention(embed_dims, num_heads, attn_drop,
	**kwargs)

	self.proj_drop = nn.Dropout(proj_drop)
	self.dropout_layer = build_dropout(
	dropout_layer) if dropout_layer else nn.Identity()

	@deprecated_api_warning({'residual': 'identity'},
	cls_name='MultiheadAttention')
	def forward(self,
	query,
	key=None,
	value=None,
	identity=None,
	query_pos=None,
	key_pos=None,
	attn_mask=None,
	key_padding_mask=None,
	**kwargs):
	"""Forward function for `MultiheadAttention`.

	**kwargs allow passing a more general data flow when combining
	with other operations in `transformerlayer`.

	Args:
	query (Tensor): The input query with shape [num_queries, bs,
	embed_dims] if self.batch_first is False, else
	[bs, num_queries embed_dims].
	key (Tensor): The key tensor with shape [num_keys, bs,
	embed_dims] if self.batch_first is False, else
	[bs, num_keys, embed_dims] .
	If None, the ``query`` will be used. Defaults to None.
	value (Tensor): The value tensor with same shape as `key`.
	Same in `nn.MultiheadAttention.forward`. Defaults to None.
	If None, the `key` will be used.
	identity (Tensor): This tensor, with the same shape as x,
	will be used for the identity link.
	If None, `x` will be used. Defaults to None.
	query_pos (Tensor): The positional encoding for query, with
	the same shape as `x`. If not None, it will
	be added to `x` before forward function. Defaults to None.
	key_pos (Tensor): The positional encoding for `key`, with the
	same shape as `key`. Defaults to None. If not None, it will
	be added to `key` before forward function. If None, and
	`query_pos` has the same shape as `key`, then `query_pos`
	will be used for `key_pos`. Defaults to None.
	attn_mask (Tensor): ByteTensor mask with shape [num_queries,
	num_keys]. Same in `nn.MultiheadAttention.forward`.
	Defaults to None.
	key_padding_mask (Tensor): ByteTensor with shape [bs, num_keys].
	Defaults to None.

	Returns:
	Tensor: forwarded results with shape
	[num_queries, bs, embed_dims]
	if self.batch_first is False, else
	[bs, num_queries embed_dims].
	"""

	if key is None:
	key = query
	if value is None:
	value = key
	if identity is None:
	identity = query
	if key_pos is None:
	if query_pos is not None:
	# use query_pos if key_pos is not available
	if query_pos.shape == key.shape:
	key_pos = query_pos
	else:
	warnings.warn(f'position encoding of key is'
	f'missing in {self.__class__.__name__}.')
	if query_pos is not None:
	query = query + query_pos
	if key_pos is not None:
	key = key + key_pos

	# Because the dataflow('key', 'query', 'value') of
	# ``torch.nn.MultiheadAttention`` is (num_query, batch,
	# embed_dims), We should adjust the shape of dataflow from
	# batch_first (batch, num_query, embed_dims) to num_query_first
	# (num_query ,batch, embed_dims), and recover ``attn_output``
	# from num_query_first to batch_first.
	if self.batch_first:
	query = query.transpose(0, 1)
	key = key.transpose(0, 1)
	value = value.transpose(0, 1)

	out = self.attn(
	query=query,
	key=key,
	value=value,
	attn_mask=attn_mask,
	key_padding_mask=key_padding_mask)[0]

	if self.batch_first:
	out = out.transpose(0, 1)

	return identity + self.dropout_layer(self.proj_drop(out))


	@FEEDFORWARD_NETWORK.register_module()
	class FFN(BaseModule):
	"""Implements feed-forward networks (FFNs) with identity connection.

	Args:
	embed_dims (int): The feature dimension. Same as
	`MultiheadAttention`. Defaults: 256.
	feedforward_channels (int): The hidden dimension of FFNs.
	Defaults: 1024.
	num_fcs (int, optional): The number of fully-connected layers in
	FFNs. Default: 2.
	act_cfg (dict, optional): The activation config for FFNs.
	Default: dict(type='ReLU')
	ffn_drop (float, optional): Probability of an element to be
	zeroed in FFN. Default 0.0.
	add_identity (bool, optional): Whether to add the
	identity connection. Default: `True`.
	dropout_layer (obj:`ConfigDict`): The dropout_layer used
	when adding the shortcut.
	init_cfg (obj:`mmcv.ConfigDict`): The Config for initialization.
	Default: None.
	"""

	@deprecated_api_warning(
	{
	'dropout': 'ffn_drop',
	'add_residual': 'add_identity'
	},
	cls_name='FFN')
	def __init__(self,
	embed_dims=256,
	feedforward_channels=1024,
	num_fcs=2,
	act_cfg=dict(type='ReLU', inplace=True),
	ffn_drop=0.,
	dropout_layer=None,
	add_identity=True,
	init_cfg=None,
	**kwargs):
	super(FFN, self).__init__(init_cfg)
	assert num_fcs >= 2, 'num_fcs should be no less ' \
	f'than 2. got {num_fcs}.'
	self.embed_dims = embed_dims
	self.feedforward_channels = feedforward_channels
	self.num_fcs = num_fcs
	self.act_cfg = act_cfg
	self.activate = build_activation_layer(act_cfg)

	layers = []
	in_channels = embed_dims
	for _ in range(num_fcs - 1):
	layers.append(
	Sequential(
	Linear(in_channels, feedforward_channels), self.activate,
	nn.Dropout(ffn_drop)))
	in_channels = feedforward_channels
	layers.append(Linear(feedforward_channels, embed_dims))
	layers.append(nn.Dropout(ffn_drop))
	self.layers = Sequential(*layers)
	self.dropout_layer = build_dropout(
	dropout_layer) if dropout_layer else torch.nn.Identity()
	self.add_identity = add_identity

	@deprecated_api_warning({'residual': 'identity'}, cls_name='FFN')
	def forward(self, x, identity=None):
	"""Forward function for `FFN`.

	The function would add x to the output tensor if residue is None.
	"""
	out = self.layers(x)
	if not self.add_identity:
	return self.dropout_layer(out)
	if identity is None:
	identity = x
	return identity + self.dropout_layer(out)


	@TRANSFORMER_LAYER.register_module()
	class BaseTransformerLayer(BaseModule):
	"""Base `TransformerLayer` for vision transformer.

	It can be built from `mmcv.ConfigDict` and support more flexible
	customization, for example, using any number of `FFN or LN ` and
	use different kinds of `attention` by specifying a list of `ConfigDict`
	named `attn_cfgs`. It is worth mentioning that it supports `prenorm`
	when you specifying `norm` as the first element of `operation_order`.
	More details about the `prenorm`: `On Layer Normalization in the
	Transformer Architecture <https://arxiv.org/abs/2002.04745>`_ .

	Args:
	attn_cfgs (list[`mmcv.ConfigDict`] \| obj:`mmcv.ConfigDict` \| None )):
	Configs for `self_attention` or `cross_attention` modules,
	The order of the configs in the list should be consistent with
	corresponding attentions in operation_order.
	If it is a dict, all of the attention modules in operation_order
	will be built with this config. Default: None.
	ffn_cfgs (list[`mmcv.ConfigDict`] \| obj:`mmcv.ConfigDict` \| None )):
	Configs for FFN, The order of the configs in the list should be
	consistent with corresponding ffn in operation_order.
	If it is a dict, all of the attention modules in operation_order
	will be built with this config.
	operation_order (tuple[str]): The execution order of operation
	in transformer. Such as ('self_attn', 'norm', 'ffn', 'norm').
	Support `prenorm` when you specifying first element as `norm`.
	Default：None.
	norm_cfg (dict): Config dict for normalization layer.
	Default: dict(type='LN').
	init_cfg (obj:`mmcv.ConfigDict`): The Config for initialization.
	Default: None.
	batch_first (bool): Key, Query and Value are shape
	of (batch, n, embed_dim)
	or (n, batch, embed_dim). Default to False.
	"""

	def __init__(self,
	attn_cfgs=None,
	ffn_cfgs=dict(
	type='FFN',
	embed_dims=256,
	feedforward_channels=1024,
	num_fcs=2,
	ffn_drop=0.,
	act_cfg=dict(type='ReLU', inplace=True),
	),
	operation_order=None,
	norm_cfg=dict(type='LN'),
	init_cfg=None,
	batch_first=False,
	**kwargs):

	deprecated_args = dict(
	feedforward_channels='feedforward_channels',
	ffn_dropout='ffn_drop',
	ffn_num_fcs='num_fcs')
	for ori_name, new_name in deprecated_args.items():
	if ori_name in kwargs:
	warnings.warn(
	f'The arguments `{ori_name}` in BaseTransformerLayer '
	f'has been deprecated, now you should set `{new_name}` '
	f'and other FFN related arguments '
	f'to a dict named `ffn_cfgs`. ')
	ffn_cfgs[new_name] = kwargs[ori_name]

	super(BaseTransformerLayer, self).__init__(init_cfg)

	self.batch_first = batch_first

	assert set(operation_order) & set(
	['self_attn', 'norm', 'ffn', 'cross_attn']) == \
	set(operation_order), f'The operation_order of' \
	f' {self.__class__.__name__} should ' \
	f'contains all four operation type ' \
	f"{['self_attn', 'norm', 'ffn', 'cross_attn']}"

	num_attn = operation_order.count('self_attn') + operation_order.count(
	'cross_attn')
	if isinstance(attn_cfgs, dict):
	attn_cfgs = [copy.deepcopy(attn_cfgs) for _ in range(num_attn)]
	else:
	assert num_attn == len(attn_cfgs), f'The length ' \
	f'of attn_cfg {num_attn} is ' \
	f'not consistent with the number of attention' \
	f'in operation_order {operation_order}.'

	self.num_attn = num_attn
	self.operation_order = operation_order
	self.norm_cfg = norm_cfg
	self.pre_norm = operation_order[0] == 'norm'
	self.attentions = ModuleList()

	index = 0
	for operation_name in operation_order:
	if operation_name in ['self_attn', 'cross_attn']:
	if 'batch_first' in attn_cfgs[index]:
	assert self.batch_first == attn_cfgs[index]['batch_first']
	else:
	attn_cfgs[index]['batch_first'] = self.batch_first
	attention = build_attention(attn_cfgs[index])
	# Some custom attentions used as `self_attn`
	# or `cross_attn` can have different behavior.
	attention.operation_name = operation_name
	self.attentions.append(attention)
	index += 1

	self.embed_dims = self.attentions[0].embed_dims

	self.ffns = ModuleList()
	num_ffns = operation_order.count('ffn')
	if isinstance(ffn_cfgs, dict):
	ffn_cfgs = ConfigDict(ffn_cfgs)
	if isinstance(ffn_cfgs, dict):
	ffn_cfgs = [copy.deepcopy(ffn_cfgs) for _ in range(num_ffns)]
	assert len(ffn_cfgs) == num_ffns
	for ffn_index in range(num_ffns):
	if 'embed_dims' not in ffn_cfgs[ffn_index]:
	ffn_cfgs['embed_dims'] = self.embed_dims
	else:
	assert ffn_cfgs[ffn_index]['embed_dims'] == self.embed_dims
	self.ffns.append(
	build_feedforward_network(ffn_cfgs[ffn_index],
	dict(type='FFN')))

	self.norms = ModuleList()
	num_norms = operation_order.count('norm')
	for _ in range(num_norms):
	self.norms.append(build_norm_layer(norm_cfg, self.embed_dims)[1])

	def forward(self,
	query,
	key=None,
	value=None,
	query_pos=None,
	key_pos=None,
	attn_masks=None,
	query_key_padding_mask=None,
	key_padding_mask=None,
	**kwargs):
	"""Forward function for `TransformerDecoderLayer`.

	**kwargs contains some specific arguments of attentions.

	Args:
	query (Tensor): The input query with shape
	[num_queries, bs, embed_dims] if
	self.batch_first is False, else
	[bs, num_queries embed_dims].
	key (Tensor): The key tensor with shape [num_keys, bs,
	embed_dims] if self.batch_first is False, else
	[bs, num_keys, embed_dims] .
	value (Tensor): The value tensor with same shape as `key`.
	query_pos (Tensor): The positional encoding for `query`.
	Default: None.
	key_pos (Tensor): The positional encoding for `key`.
	Default: None.
	attn_masks (List[Tensor] \| None): 2D Tensor used in
	calculation of corresponding attention. The length of
	it should equal to the number of `attention` in
	`operation_order`. Default: None.
	query_key_padding_mask (Tensor): ByteTensor for `query`, with
	shape [bs, num_queries]. Only used in `self_attn` layer.
	Defaults to None.
	key_padding_mask (Tensor): ByteTensor for `query`, with
	shape [bs, num_keys]. Default: None.

	Returns:
	Tensor: forwarded results with shape [num_queries, bs, embed_dims].
	"""

	norm_index = 0
	attn_index = 0
	ffn_index = 0
	identity = query
	if attn_masks is None:
	attn_masks = [None for _ in range(self.num_attn)]
	elif isinstance(attn_masks, torch.Tensor):
	attn_masks = [
	copy.deepcopy(attn_masks) for _ in range(self.num_attn)
	]
	warnings.warn(f'Use same attn_mask in all attentions in '
	f'{self.__class__.__name__} ')
	else:
	assert len(attn_masks) == self.num_attn, f'The length of ' \
	f'attn_masks {len(attn_masks)} must be equal ' \
	f'to the number of attention in ' \
	f'operation_order {self.num_attn}'

	for layer in self.operation_order:
	if layer == 'self_attn':
	temp_key = temp_value = query
	query = self.attentions[attn_index](
	query,
	temp_key,
	temp_value,
	identity if self.pre_norm else None,
	query_pos=query_pos,
	key_pos=query_pos,
	attn_mask=attn_masks[attn_index],
	key_padding_mask=query_key_padding_mask,
	**kwargs)
	attn_index += 1
	identity = query

	elif layer == 'norm':
	query = self.norms[norm_index](query)
	norm_index += 1

	elif layer == 'cross_attn':
	query = self.attentions[attn_index](
	query,
	key,
	value,
	identity if self.pre_norm else None,
	query_pos=query_pos,
	key_pos=key_pos,
	attn_mask=attn_masks[attn_index],
	key_padding_mask=key_padding_mask,
	**kwargs)
	attn_index += 1
	identity = query

	elif layer == 'ffn':
	query = self.ffns[ffn_index](
	query, identity if self.pre_norm else None)
	ffn_index += 1

	return query


	@TRANSFORMER_LAYER_SEQUENCE.register_module()
	class TransformerLayerSequence(BaseModule):
	"""Base class for TransformerEncoder and TransformerDecoder in vision
	transformer.

	As base-class of Encoder and Decoder in vision transformer.
	Support customization such as specifying different kind
	of `transformer_layer` in `transformer_coder`.

	Args:
	transformerlayer (list[obj:`mmcv.ConfigDict`] \|
	obj:`mmcv.ConfigDict`): Config of transformerlayer
	in TransformerCoder. If it is obj:`mmcv.ConfigDict`,
	it would be repeated `num_layer` times to a
	list[`mmcv.ConfigDict`]. Default: None.
	num_layers (int): The number of `TransformerLayer`. Default: None.
	init_cfg (obj:`mmcv.ConfigDict`): The Config for initialization.
	Default: None.
	"""

	def __init__(self, transformerlayers=None, num_layers=None, init_cfg=None):
	super(TransformerLayerSequence, self).__init__(init_cfg)
	if isinstance(transformerlayers, dict):
	transformerlayers = [
	copy.deepcopy(transformerlayers) for _ in range(num_layers)
	]
	else:
	assert isinstance(transformerlayers, list) and \
	len(transformerlayers) == num_layers
	self.num_layers = num_layers
	self.layers = ModuleList()
	for i in range(num_layers):
	self.layers.append(build_transformer_layer(transformerlayers[i]))
	self.embed_dims = self.layers[0].embed_dims
	self.pre_norm = self.layers[0].pre_norm

	def forward(self,
	query,
	key,
	value,
	query_pos=None,
	key_pos=None,
	attn_masks=None,
	query_key_padding_mask=None,
	key_padding_mask=None,
	**kwargs):
	"""Forward function for `TransformerCoder`.

	Args:
	query (Tensor): Input query with shape
	`(num_queries, bs, embed_dims)`.
	key (Tensor): The key tensor with shape
	`(num_keys, bs, embed_dims)`.
	value (Tensor): The value tensor with shape
	`(num_keys, bs, embed_dims)`.
	query_pos (Tensor): The positional encoding for `query`.
	Default: None.
	key_pos (Tensor): The positional encoding for `key`.
	Default: None.
	attn_masks (List[Tensor], optional): Each element is 2D Tensor
	which is used in calculation of corresponding attention in
	operation_order. Default: None.
	query_key_padding_mask (Tensor): ByteTensor for `query`, with
	shape [bs, num_queries]. Only used in self-attention
	Default: None.
	key_padding_mask (Tensor): ByteTensor for `query`, with
	shape [bs, num_keys]. Default: None.

	Returns:
	Tensor: results with shape [num_queries, bs, embed_dims].
	"""
	for layer in self.layers:
	query = layer(
	query,
	key,
	value,
	query_pos=query_pos,
	key_pos=key_pos,
	attn_masks=attn_masks,
	query_key_padding_mask=query_key_padding_mask,
	key_padding_mask=key_padding_mask,
	**kwargs)
	return query