449 lines
19 KiB
Python
449 lines
19 KiB
Python
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# ------------------------------------------------------------------------
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# Deformable DETR
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# Copyright (c) 2020 SenseTime. All Rights Reserved.
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# Licensed under the Apache License, Version 2.0 [see LICENSE for details]
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# ------------------------------------------------------------------------
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# Modified from DETR (https://github.com/facebookresearch/detr)
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
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# ------------------------------------------------------------------------
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import copy
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from typing import Optional, List
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import math
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import torch
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import torch.nn.functional as F
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from torch import nn, Tensor
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from torch.nn.init import xavier_uniform_, constant_, uniform_, normal_
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from util.misc import inverse_sigmoid
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from models.ops.modules import MSDeformAttn
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class DeformableTransformer(nn.Module):
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def __init__(self, d_model=256, nhead=8,
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num_encoder_layers=6, num_decoder_layers=6, dim_feedforward=1024, dropout=0.1,
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activation="relu", return_intermediate_dec=False,
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num_feature_levels=4, dec_n_points=4, enc_n_points=4,
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two_stage=False, two_stage_num_proposals=300):
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super().__init__()
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self.d_model = d_model
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self.nhead = nhead
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self.two_stage = two_stage
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self.two_stage_num_proposals = two_stage_num_proposals
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encoder_layer = DeformableTransformerEncoderLayer(d_model, dim_feedforward,
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dropout, activation,
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num_feature_levels, nhead, enc_n_points)
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self.encoder = DeformableTransformerEncoder(encoder_layer, num_encoder_layers)
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decoder_layer = DeformableTransformerDecoderLayer(d_model, dim_feedforward,
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dropout, activation,
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num_feature_levels, nhead, dec_n_points)
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self.decoder = DeformableTransformerDecoder(decoder_layer, num_decoder_layers, return_intermediate_dec)
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self.level_embed = nn.Parameter(torch.Tensor(num_feature_levels, d_model))
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if two_stage:
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self.enc_output = nn.Linear(d_model, d_model)
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self.enc_output_norm = nn.LayerNorm(d_model)
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self.pos_trans = nn.Linear(d_model * 2, d_model * 2)
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self.pos_trans_norm = nn.LayerNorm(d_model * 2)
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else:
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self.reference_points = nn.Linear(d_model, 2)
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self._reset_parameters()
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def _reset_parameters(self):
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for p in self.parameters():
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if p.dim() > 1:
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nn.init.xavier_uniform_(p)
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for m in self.modules():
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if isinstance(m, MSDeformAttn):
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m._reset_parameters()
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if not self.two_stage:
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xavier_uniform_(self.reference_points.weight.data, gain=1.0)
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constant_(self.reference_points.bias.data, 0.)
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normal_(self.level_embed)
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def get_proposal_pos_embed(self, proposals):
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num_pos_feats = 128
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temperature = 10000
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scale = 2 * math.pi
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dim_t = torch.arange(num_pos_feats, dtype=torch.float32, device=proposals.device)
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dim_t = temperature ** (2 * (dim_t // 2) / num_pos_feats)
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# N, L, 4
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proposals = proposals.sigmoid() * scale
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# N, L, 4, 128
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pos = proposals[:, :, :, None] / dim_t
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# N, L, 4, 64, 2
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pos = torch.stack((pos[:, :, :, 0::2].sin(), pos[:, :, :, 1::2].cos()), dim=4).flatten(2)
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return pos
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def gen_encoder_output_proposals(self, memory, memory_padding_mask, spatial_shapes):
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N_, S_, C_ = memory.shape
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base_scale = 4.0
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proposals = []
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_cur = 0
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for lvl, (H_, W_) in enumerate(spatial_shapes):
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mask_flatten_ = memory_padding_mask[:, _cur:(_cur + H_ * W_)].view(N_, H_, W_, 1)
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valid_H = torch.sum(~mask_flatten_[:, :, 0, 0], 1)
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valid_W = torch.sum(~mask_flatten_[:, 0, :, 0], 1)
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grid_y, grid_x = torch.meshgrid(torch.linspace(0, H_ - 1, H_, dtype=torch.float32, device=memory.device),
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torch.linspace(0, W_ - 1, W_, dtype=torch.float32, device=memory.device))
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grid = torch.cat([grid_x.unsqueeze(-1), grid_y.unsqueeze(-1)], -1)
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scale = torch.cat([valid_W.unsqueeze(-1), valid_H.unsqueeze(-1)], 1).view(N_, 1, 1, 2)
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grid = (grid.unsqueeze(0).expand(N_, -1, -1, -1) + 0.5) / scale
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wh = torch.ones_like(grid) * 0.05 * (2.0 ** lvl)
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proposal = torch.cat((grid, wh), -1).view(N_, -1, 4)
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proposals.append(proposal)
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_cur += (H_ * W_)
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output_proposals = torch.cat(proposals, 1)
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output_proposals_valid = ((output_proposals > 0.01) & (output_proposals < 0.99)).all(-1, keepdim=True)
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output_proposals = torch.log(output_proposals / (1 - output_proposals))
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output_proposals = output_proposals.masked_fill(memory_padding_mask.unsqueeze(-1), float('inf'))
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output_proposals = output_proposals.masked_fill(~output_proposals_valid, float('inf'))
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output_memory = memory
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output_memory = output_memory.masked_fill(memory_padding_mask.unsqueeze(-1), float(0))
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output_memory = output_memory.masked_fill(~output_proposals_valid, float(0))
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output_memory = self.enc_output_norm(self.enc_output(output_memory))
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return output_memory, output_proposals
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def get_valid_ratio(self, mask):
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_, H, W = mask.shape
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valid_H = torch.sum(~mask[:, :, 0], 1)
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valid_W = torch.sum(~mask[:, 0, :], 1)
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valid_ratio_h = valid_H.float() / H
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valid_ratio_w = valid_W.float() / W
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valid_ratio = torch.stack([valid_ratio_w, valid_ratio_h], -1)
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return valid_ratio
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def forward(self, srcs, masks, pos_embeds, query_embed=None):
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assert self.two_stage or query_embed is not None
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# prepare input for encoder
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src_flatten = []
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mask_flatten = []
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lvl_pos_embed_flatten = []
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spatial_shapes = []
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for lvl, (src, mask, pos_embed) in enumerate(zip(srcs, masks, pos_embeds)):
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bs, c, h, w = src.shape
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spatial_shape = (h, w)
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spatial_shapes.append(spatial_shape)
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src = src.flatten(2).transpose(1, 2)
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mask = mask.flatten(1)
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pos_embed = pos_embed.flatten(2).transpose(1, 2)
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lvl_pos_embed = pos_embed + self.level_embed[lvl].view(1, 1, -1)
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lvl_pos_embed_flatten.append(lvl_pos_embed)
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src_flatten.append(src)
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mask_flatten.append(mask)
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src_flatten = torch.cat(src_flatten, 1)
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mask_flatten = torch.cat(mask_flatten, 1)
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lvl_pos_embed_flatten = torch.cat(lvl_pos_embed_flatten, 1)
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spatial_shapes = torch.as_tensor(spatial_shapes, dtype=torch.long, device=src_flatten.device)
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level_start_index = torch.cat((spatial_shapes.new_zeros((1, )), spatial_shapes.prod(1).cumsum(0)[:-1]))
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valid_ratios = torch.stack([self.get_valid_ratio(m) for m in masks], 1)
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# encoder
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memory = self.encoder(src_flatten, spatial_shapes, level_start_index, valid_ratios, lvl_pos_embed_flatten, mask_flatten)
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# prepare input for decoder:
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bs, _, c = memory.shape
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if self.two_stage:
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output_memory, output_proposals = self.gen_encoder_output_proposals(memory, mask_flatten, spatial_shapes)
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# hack implementation for two-stage Deformable DETR
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enc_outputs_class = self.decoder.class_embed[self.decoder.num_layers](output_memory)
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enc_outputs_coord_unact = self.decoder.bbox_embed[self.decoder.num_layers](output_memory) + output_proposals
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topk = self.two_stage_num_proposals
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topk_proposals = torch.topk(enc_outputs_class[..., 0], topk, dim=1)[1]
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topk_coords_unact = torch.gather(enc_outputs_coord_unact, 1, topk_proposals.unsqueeze(-1).repeat(1, 1, 4))
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topk_coords_unact = topk_coords_unact.detach()
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reference_points = topk_coords_unact.sigmoid()
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init_reference_out = reference_points
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pos_trans_out = self.pos_trans_norm(self.pos_trans(self.get_proposal_pos_embed(topk_coords_unact)))
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query_embed, tgt = torch.split(pos_trans_out, c, dim=2)
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else:
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query_embed, tgt = torch.split(query_embed, c, dim=1)
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query_embed = query_embed.unsqueeze(0).expand(bs, -1, -1)
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tgt = tgt.unsqueeze(0).expand(bs, -1, -1)
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reference_points = self.reference_points(query_embed).sigmoid()
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init_reference_out = reference_points
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# decoder
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hs, inter_references = self.decoder(tgt, reference_points, memory,
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spatial_shapes, level_start_index, valid_ratios, query_embed, mask_flatten)
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inter_references_out = inter_references
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if self.two_stage:
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return hs, init_reference_out, inter_references_out, enc_outputs_class, enc_outputs_coord_unact
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return hs, init_reference_out, inter_references_out, None, None
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class DeformableTransformerEncoderLayer(nn.Module):
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def __init__(self,
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d_model=256, d_ffn=1024,
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dropout=0.1, activation="relu",
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n_levels=4, n_heads=8, n_points=4):
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super().__init__()
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# self attention
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self.self_attn = MSDeformAttn(d_model, n_levels, n_heads, n_points)
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self.dropout1 = nn.Dropout(dropout)
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self.norm1 = nn.LayerNorm(d_model)
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# ffn
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self.linear1 = nn.Linear(d_model, d_ffn)
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self.activation = _get_activation_fn(activation)
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self.dropout2 = nn.Dropout(dropout)
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self.linear2 = nn.Linear(d_ffn, d_model)
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self.dropout3 = nn.Dropout(dropout)
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self.norm2 = nn.LayerNorm(d_model)
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@staticmethod
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def with_pos_embed(tensor, pos):
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return tensor if pos is None else tensor + pos
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def forward_ffn(self, src):
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src2 = self.linear2(self.dropout2(self.activation(self.linear1(src))))
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src = src + self.dropout3(src2)
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src = self.norm2(src)
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return src
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def forward(self, src, pos, reference_points, spatial_shapes, level_start_index, padding_mask=None):
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# self attention
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src2 = self.self_attn(self.with_pos_embed(src, pos), reference_points, src, spatial_shapes, level_start_index, padding_mask)
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src = src + self.dropout1(src2)
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src = self.norm1(src)
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# ffn
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src = self.forward_ffn(src)
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return src
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class DeformableTransformerEncoder(nn.Module):
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def __init__(self, encoder_layer, num_layers):
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super().__init__()
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self.layers = _get_clones(encoder_layer, num_layers)
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self.num_layers = num_layers
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@staticmethod
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def get_reference_points(spatial_shapes, valid_ratios, device):
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reference_points_list = []
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for lvl, (H_, W_) in enumerate(spatial_shapes):
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ref_y, ref_x = torch.meshgrid(torch.linspace(0.5, H_ - 0.5, H_, dtype=torch.float32, device=device),
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torch.linspace(0.5, W_ - 0.5, W_, dtype=torch.float32, device=device))
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ref_y = ref_y.reshape(-1)[None] / (valid_ratios[:, None, lvl, 1] * H_)
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ref_x = ref_x.reshape(-1)[None] / (valid_ratios[:, None, lvl, 0] * W_)
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ref = torch.stack((ref_x, ref_y), -1)
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reference_points_list.append(ref)
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reference_points = torch.cat(reference_points_list, 1)
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reference_points = reference_points[:, :, None] * valid_ratios[:, None]
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return reference_points
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def forward(self, src, spatial_shapes, level_start_index, valid_ratios, pos=None, padding_mask=None):
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output = src
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reference_points = self.get_reference_points(spatial_shapes, valid_ratios, device=src.device)
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for _, layer in enumerate(self.layers):
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output = layer(output, pos, reference_points, spatial_shapes, level_start_index, padding_mask)
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return output
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class DeformableTransformerDecoderLayer(nn.Module):
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def __init__(self, d_model=256, d_ffn=1024,
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dropout=0.1, activation="relu",
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n_levels=4, n_heads=8, n_points=4):
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super().__init__()
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# cross attention
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self.cross_attn = MSDeformAttn(d_model, n_levels, n_heads, n_points)
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self.dropout1 = nn.Dropout(dropout)
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self.norm1 = nn.LayerNorm(d_model)
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# self attention
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self.self_attn = nn.MultiheadAttention(d_model, n_heads, dropout=dropout)
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self.dropout2 = nn.Dropout(dropout)
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self.norm2 = nn.LayerNorm(d_model)
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# ffn
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self.linear1 = nn.Linear(d_model, d_ffn)
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self.activation = _get_activation_fn(activation)
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self.dropout3 = nn.Dropout(dropout)
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self.linear2 = nn.Linear(d_ffn, d_model)
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self.dropout4 = nn.Dropout(dropout)
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self.norm3 = nn.LayerNorm(d_model)
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@staticmethod
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def with_pos_embed(tensor, pos):
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return tensor if pos is None else tensor + pos
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def forward_ffn(self, tgt):
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tgt2 = self.linear2(self.dropout3(self.activation(self.linear1(tgt))))
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tgt = tgt + self.dropout4(tgt2)
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tgt = self.norm3(tgt)
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return tgt
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def forward(self, tgt, query_pos, reference_points, src, src_spatial_shapes, level_start_index, src_padding_mask=None):
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# self attention
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q = k = self.with_pos_embed(tgt, query_pos)
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#
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tgt2 = self.self_attn(q.transpose(0, 1), k.transpose(0, 1), tgt.transpose(0, 1))[0].transpose(0, 1)
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tgt = tgt + self.dropout2(tgt2)
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tgt = self.norm2(tgt)
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# cross attention
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tgt2 = self.cross_attn(self.with_pos_embed(tgt, query_pos),
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reference_points,
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src, src_spatial_shapes, level_start_index, src_padding_mask)
|
||
|
|
tgt = tgt + self.dropout1(tgt2)
|
||
|
|
tgt = self.norm1(tgt)
|
||
|
|
|
||
|
|
# ffn
|
||
|
|
tgt = self.forward_ffn(tgt)
|
||
|
|
|
||
|
|
return tgt
|
||
|
|
|
||
|
|
class TemporalDeformableTransformerEncoderLayer(nn.Module):
|
||
|
|
def __init__(self, d_model = 256, d_ffn=1024, dropout=0.1,
|
||
|
|
activation='relu', n_frames = 4, h_heads = 8, n_points=4):
|
||
|
|
super().__init__()
|
||
|
|
|
||
|
|
# cross attention
|
||
|
|
self.cross_attn = MSDeformAttn(d_model, n_frames, h_heads, n_points)
|
||
|
|
self.dropout1 = nn.Dropout(dropout)
|
||
|
|
self.norm1 = nn.LayerNorm(d_model)
|
||
|
|
|
||
|
|
# self attention
|
||
|
|
self.self_attn = nn.MultiheadAttention(d_model, n_heads, dropout=dropout)
|
||
|
|
self.dropout2 = nn.Dropout(dropout)
|
||
|
|
self.norm2 = nn.LayerNorm(d_model)
|
||
|
|
|
||
|
|
# ffn
|
||
|
|
self.linear1 = nn.Linear(d_model, d_ffn)
|
||
|
|
self.activation = _get_activation_fn(activation)
|
||
|
|
self.dropout3 = nn.Dropout(dropout)
|
||
|
|
self.linear2 = nn.Linear(d_ffn, d_model)
|
||
|
|
self.dropout4 = nn.Dropout(dropout)
|
||
|
|
self.norm3 = nn.LayerNorm(d_model)
|
||
|
|
|
||
|
|
@staticmethod
|
||
|
|
def with_pos_embed(tensor, pos):
|
||
|
|
return tensor if pos is None else tensor + pos
|
||
|
|
|
||
|
|
def forward_ffn(self, tgt):
|
||
|
|
tgt2 = self.linear2(self.dropout3(self.activation(self.linear1(tgt))))
|
||
|
|
tgt = tgt + self.dropout4(tgt2)
|
||
|
|
tgt = self.norm3(tgt)
|
||
|
|
return tgt
|
||
|
|
|
||
|
|
def forward(self, tgt, query_pos, reference_points, src, src_spatial_shapes, frame_start_index, src_padding_mask=None):
|
||
|
|
# self attention
|
||
|
|
q = k = self.with_pos_embed(tgt, query_pos)
|
||
|
|
tgt2 = self.self_attn(q.transpose(0, 1), k.transpose(0, 1), tgt.transpose(0, 1))[0].transpose(0, 1)
|
||
|
|
tgt = tgt + self.dropout2(tgt2)
|
||
|
|
tgt = self.norm2(tgt)
|
||
|
|
|
||
|
|
# cross attention
|
||
|
|
tgt2 = self.cross_attn(self.with_pos_embed(tgt, query_pos),
|
||
|
|
reference_points,
|
||
|
|
src, src_spatial_shapes, frame_start_index, src_padding_mask)
|
||
|
|
tgt = tgt + self.dropout1(tgt2)
|
||
|
|
tgt = self.norm1(tgt)
|
||
|
|
|
||
|
|
# ffn
|
||
|
|
tgt = self.forward_ffn(tgt)
|
||
|
|
|
||
|
|
return tgt
|
||
|
|
|
||
|
|
|
||
|
|
class DeformableTransformerDecoder(nn.Module):
|
||
|
|
def __init__(self, decoder_layer, num_layers, return_intermediate=False):
|
||
|
|
super().__init__()
|
||
|
|
self.layers = _get_clones(decoder_layer, num_layers)
|
||
|
|
self.num_layers = num_layers
|
||
|
|
self.return_intermediate = return_intermediate
|
||
|
|
# hack implementation for iterative bounding box refinement and two-stage Deformable DETR
|
||
|
|
self.bbox_embed = None
|
||
|
|
self.class_embed = None
|
||
|
|
|
||
|
|
def forward(self, tgt, reference_points, src, src_spatial_shapes, src_level_start_index, src_valid_ratios,
|
||
|
|
query_pos=None, src_padding_mask=None):
|
||
|
|
output = tgt
|
||
|
|
|
||
|
|
intermediate = []
|
||
|
|
intermediate_reference_points = []
|
||
|
|
for lid, layer in enumerate(self.layers):
|
||
|
|
if reference_points.shape[-1] == 4:
|
||
|
|
reference_points_input = reference_points[:, :, None] \
|
||
|
|
* torch.cat([src_valid_ratios, src_valid_ratios], -1)[:, None]
|
||
|
|
else:
|
||
|
|
assert reference_points.shape[-1] == 2
|
||
|
|
reference_points_input = reference_points[:, :, None] * src_valid_ratios[:, None]
|
||
|
|
output = layer(output, query_pos, reference_points_input, src, src_spatial_shapes, src_level_start_index, src_padding_mask)
|
||
|
|
|
||
|
|
# hack implementation for iterative bounding box refinement
|
||
|
|
if self.bbox_embed is not None:
|
||
|
|
tmp = self.bbox_embed[lid](output)
|
||
|
|
if reference_points.shape[-1] == 4:
|
||
|
|
new_reference_points = tmp + inverse_sigmoid(reference_points)
|
||
|
|
new_reference_points = new_reference_points.sigmoid()
|
||
|
|
else:
|
||
|
|
assert reference_points.shape[-1] == 2
|
||
|
|
new_reference_points = tmp
|
||
|
|
new_reference_points[..., :2] = tmp[..., :2] + inverse_sigmoid(reference_points)
|
||
|
|
new_reference_points = new_reference_points.sigmoid()
|
||
|
|
reference_points = new_reference_points.detach()
|
||
|
|
|
||
|
|
if self.return_intermediate:
|
||
|
|
intermediate.append(output)
|
||
|
|
intermediate_reference_points.append(reference_points)
|
||
|
|
|
||
|
|
if self.return_intermediate:
|
||
|
|
return torch.stack(intermediate), torch.stack(intermediate_reference_points)
|
||
|
|
|
||
|
|
return output, reference_points
|
||
|
|
|
||
|
|
|
||
|
|
def _get_clones(module, N):
|
||
|
|
return nn.ModuleList([copy.deepcopy(module) for i in range(N)])
|
||
|
|
|
||
|
|
|
||
|
|
def _get_activation_fn(activation):
|
||
|
|
"""Return an activation function given a string"""
|
||
|
|
if activation == "relu":
|
||
|
|
return F.relu
|
||
|
|
if activation == "gelu":
|
||
|
|
return F.gelu
|
||
|
|
if activation == "glu":
|
||
|
|
return F.glu
|
||
|
|
raise RuntimeError(F"activation should be relu/gelu, not {activation}.")
|
||
|
|
|
||
|
|
|
||
|
|
def build_deforamble_transformer(args):
|
||
|
|
return DeformableTransformer(
|
||
|
|
d_model=args.hidden_dim,
|
||
|
|
nhead=args.nheads,
|
||
|
|
num_encoder_layers=args.enc_layers,
|
||
|
|
num_decoder_layers=args.dec_layers,
|
||
|
|
dim_feedforward=args.dim_feedforward,
|
||
|
|
dropout=args.dropout,
|
||
|
|
activation="relu",
|
||
|
|
return_intermediate_dec=True,
|
||
|
|
num_feature_levels=args.num_feature_levels,
|
||
|
|
dec_n_points=args.dec_n_points,
|
||
|
|
enc_n_points=args.enc_n_points,
|
||
|
|
two_stage=args.two_stage,
|
||
|
|
two_stage_num_proposals=args.num_queries)
|
||
|
|
|
||
|
|
|