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from dataclasses import dataclass |
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from typing import List, Optional, Tuple, Union |
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import torch |
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import torch.nn.functional as F |
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from torch import nn |
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from diffusers.configuration_utils import ConfigMixin, register_to_config |
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from diffusers.modeling_utils import ModelMixin |
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from diffusers.utils import BaseOutput |
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from diffusers.utils.import_utils import is_xformers_available |
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from diffusers.models.attention import CrossAttention, FeedForward |
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from einops import rearrange, repeat |
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import math |
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def zero_module(module): |
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for p in module.parameters(): |
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p.detach().zero_() |
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return module |
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@dataclass |
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class TemporalTransformer3DModelOutput(BaseOutput): |
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sample: torch.FloatTensor |
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if is_xformers_available(): |
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import xformers |
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import xformers.ops |
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else: |
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xformers = None |
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def get_motion_module( |
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in_channels, |
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motion_module_type: str, |
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motion_module_kwargs: dict |
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): |
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if motion_module_type == "Vanilla": |
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return VanillaTemporalModule(in_channels=in_channels, **motion_module_kwargs,) |
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else: |
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raise ValueError |
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class VanillaTemporalModule(nn.Module): |
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def __init__( |
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self, |
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in_channels, |
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num_attention_heads=8, |
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num_transformer_block=2, |
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attention_block_types=("Temporal_Self", "Temporal_Self"), |
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cross_frame_attention_mode=None, |
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temporal_position_encoding=False, |
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temporal_attention_dim_div=1, |
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zero_initialize=True, |
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): |
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super().__init__() |
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self.temporal_transformer = TemporalTransformer3DModel( |
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in_channels=in_channels, |
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num_attention_heads=num_attention_heads, |
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attention_head_dim=in_channels // num_attention_heads // temporal_attention_dim_div, |
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num_layers=num_transformer_block, |
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attention_block_types=attention_block_types, |
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cross_frame_attention_mode=cross_frame_attention_mode, |
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temporal_position_encoding=temporal_position_encoding, |
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) |
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if zero_initialize: |
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self.temporal_transformer.proj_out = zero_module( |
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self.temporal_transformer.proj_out) |
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def forward(self, input_tensor, temb, encoder_hidden_states, attention_mask=None, anchor_frame_idx=None): |
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hidden_states = input_tensor |
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hidden_states = self.temporal_transformer( |
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hidden_states, encoder_hidden_states, attention_mask) |
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output = hidden_states |
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return output |
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class TemporalTransformer3DModel(nn.Module): |
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def __init__( |
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self, |
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in_channels, |
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num_attention_heads, |
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attention_head_dim, |
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num_layers, |
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attention_block_types=("Temporal_Self", "Temporal_Self", ), |
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dropout=0.0, |
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norm_num_groups=32, |
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cross_attention_dim=768, |
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activation_fn="geglu", |
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attention_bias=False, |
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upcast_attention=False, |
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cross_frame_attention_mode=None, |
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temporal_position_encoding=False, |
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): |
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super().__init__() |
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inner_dim = num_attention_heads * attention_head_dim |
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self.norm = torch.nn.GroupNorm( |
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num_groups=norm_num_groups, num_channels=in_channels, eps=1e-6, affine=True) |
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self.proj_in = nn.Linear(in_channels, inner_dim) |
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self.transformer_blocks = nn.ModuleList( |
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[ |
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TemporalTransformerBlock( |
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dim=inner_dim, |
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num_attention_heads=num_attention_heads, |
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attention_head_dim=attention_head_dim, |
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attention_block_types=attention_block_types, |
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dropout=dropout, |
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norm_num_groups=norm_num_groups, |
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cross_attention_dim=cross_attention_dim, |
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activation_fn=activation_fn, |
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attention_bias=attention_bias, |
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upcast_attention=upcast_attention, |
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cross_frame_attention_mode=cross_frame_attention_mode, |
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temporal_position_encoding=temporal_position_encoding, |
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) |
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for d in range(num_layers) |
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] |
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) |
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self.proj_out = nn.Linear(inner_dim, in_channels) |
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def forward(self, hidden_states, encoder_hidden_states=None, attention_mask=None): |
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assert hidden_states.dim( |
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) == 5, f"Expected hidden_states to have ndim=5, but got ndim={hidden_states.dim()}." |
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video_length = hidden_states.shape[2] |
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hidden_states = rearrange(hidden_states, "b c f h w -> (b f) c h w") |
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batch, channel, height, weight = hidden_states.shape |
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residual = hidden_states |
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hidden_states = self.norm(hidden_states) |
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inner_dim = hidden_states.shape[1] |
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hidden_states = hidden_states.permute( |
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0, 2, 3, 1).reshape(batch, height * weight, inner_dim) |
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hidden_states = self.proj_in(hidden_states) |
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for block in self.transformer_blocks: |
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hidden_states = block( |
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hidden_states, encoder_hidden_states=encoder_hidden_states, video_length=video_length) |
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hidden_states = self.proj_out(hidden_states) |
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hidden_states = hidden_states.reshape( |
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batch, height, weight, inner_dim).permute(0, 3, 1, 2).contiguous() |
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output = hidden_states + residual |
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output = rearrange(output, "(b f) c h w -> b c f h w", f=video_length) |
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return output |
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class TemporalTransformerBlock(nn.Module): |
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def __init__( |
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self, |
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dim, |
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num_attention_heads, |
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attention_head_dim, |
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attention_block_types=("Temporal_Self", "Temporal_Self", ), |
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dropout=0.0, |
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norm_num_groups=32, |
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cross_attention_dim=768, |
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activation_fn="geglu", |
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attention_bias=False, |
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upcast_attention=False, |
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cross_frame_attention_mode=None, |
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temporal_position_encoding=False, |
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): |
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super().__init__() |
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attention_blocks = [] |
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norms = [] |
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for block_name in attention_block_types: |
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attention_blocks.append( |
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VersatileAttention( |
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attention_mode=block_name.split("_")[0], |
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cross_attention_dim=cross_attention_dim if block_name.endswith( |
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"_Cross") else None, |
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query_dim=dim, |
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heads=num_attention_heads, |
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dim_head=attention_head_dim, |
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dropout=dropout, |
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bias=attention_bias, |
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upcast_attention=upcast_attention, |
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cross_frame_attention_mode=cross_frame_attention_mode, |
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temporal_position_encoding=temporal_position_encoding, |
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) |
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) |
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norms.append(nn.LayerNorm(dim)) |
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self.attention_blocks = nn.ModuleList(attention_blocks) |
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self.norms = nn.ModuleList(norms) |
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self.ff = FeedForward(dim, dropout=dropout, |
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activation_fn=activation_fn) |
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self.ff_norm = nn.LayerNorm(dim) |
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def forward(self, hidden_states, encoder_hidden_states=None, attention_mask=None, video_length=None): |
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for attention_block, norm in zip(self.attention_blocks, self.norms): |
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norm_hidden_states = norm(hidden_states) |
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hidden_states = attention_block( |
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norm_hidden_states, |
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encoder_hidden_states=encoder_hidden_states if attention_block.is_cross_attention else None, |
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video_length=video_length, |
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) + hidden_states |
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hidden_states = self.ff(self.ff_norm(hidden_states)) + hidden_states |
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output = hidden_states |
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return output |
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class PositionalEncoding(nn.Module): |
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def __init__( |
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self, |
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d_model, |
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dropout=0., |
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): |
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super().__init__() |
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max_length = 64 |
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self.dropout = nn.Dropout(p=dropout) |
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position = torch.arange(max_length).unsqueeze(1) |
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div_term = torch.exp(torch.arange(0, d_model, 2) |
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* (-math.log(10000.0) / d_model)) |
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pe = torch.zeros(1, max_length, d_model) |
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pe[0, :, 0::2] = torch.sin(position * div_term) |
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pe[0, :, 1::2] = torch.cos(position * div_term) |
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self.register_buffer('pos_encoding', pe) |
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def forward(self, x): |
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x = x + self.pos_encoding[:, :x.size(1)] |
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return self.dropout(x) |
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class VersatileAttention(CrossAttention): |
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def __init__( |
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self, |
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attention_mode=None, |
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cross_frame_attention_mode=None, |
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temporal_position_encoding=False, |
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*args, **kwargs |
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): |
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super().__init__(*args, **kwargs) |
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assert attention_mode == "Temporal" |
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self.attention_mode = attention_mode |
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self.is_cross_attention = kwargs["cross_attention_dim"] is not None |
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self.pos_encoder = PositionalEncoding( |
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kwargs["query_dim"], |
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dropout=0., |
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) if (temporal_position_encoding and attention_mode == "Temporal") else None |
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def extra_repr(self): |
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return f"(Module Info) Attention_Mode: {self.attention_mode}, Is_Cross_Attention: {self.is_cross_attention}" |
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def forward(self, hidden_states, encoder_hidden_states=None, attention_mask=None, video_length=None): |
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batch_size, sequence_length, _ = hidden_states.shape |
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if self.attention_mode == "Temporal": |
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d = hidden_states.shape[1] |
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hidden_states = rearrange( |
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hidden_states, "(b f) d c -> (b d) f c", f=video_length) |
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if self.pos_encoder is not None: |
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hidden_states = self.pos_encoder(hidden_states) |
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encoder_hidden_states = repeat(encoder_hidden_states, "b n c -> (b d) n c", |
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d=d) if encoder_hidden_states is not None else encoder_hidden_states |
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else: |
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raise NotImplementedError |
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encoder_hidden_states = encoder_hidden_states |
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if self.group_norm is not None: |
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hidden_states = self.group_norm( |
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hidden_states.transpose(1, 2)).transpose(1, 2) |
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query = self.to_q(hidden_states) |
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dim = query.shape[-1] |
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query = self.reshape_heads_to_batch_dim(query) |
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if self.added_kv_proj_dim is not None: |
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raise NotImplementedError |
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encoder_hidden_states = encoder_hidden_states if encoder_hidden_states is not None else hidden_states |
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key = self.to_k(encoder_hidden_states) |
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value = self.to_v(encoder_hidden_states) |
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key = self.reshape_heads_to_batch_dim(key) |
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value = self.reshape_heads_to_batch_dim(value) |
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if attention_mask is not None: |
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if attention_mask.shape[-1] != query.shape[1]: |
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target_length = query.shape[1] |
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attention_mask = F.pad( |
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attention_mask, (0, target_length), value=0.0) |
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attention_mask = attention_mask.repeat_interleave( |
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self.heads, dim=0) |
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if self._use_memory_efficient_attention_xformers: |
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hidden_states = self._memory_efficient_attention_xformers( |
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query, key, value, attention_mask) |
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hidden_states = hidden_states.to(query.dtype) |
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else: |
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if self._slice_size is None or query.shape[0] // self._slice_size == 1: |
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hidden_states = self._attention( |
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query, key, value, attention_mask) |
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else: |
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hidden_states = self._sliced_attention( |
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query, key, value, sequence_length, dim, attention_mask) |
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hidden_states = self.to_out[0](hidden_states) |
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hidden_states = self.to_out[1](hidden_states) |
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if self.attention_mode == "Temporal": |
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hidden_states = rearrange( |
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hidden_states, "(b d) f c -> (b f) d c", d=d) |
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return hidden_states |
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