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segmentation/mmseg_custom/models/decode_heads/msda.py
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355
segmentation/mmseg_custom/models/decode_heads/msda.py
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# --------------------------------------------------------
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# DCNv4
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# Copyright (c) 2024 OpenGVLab
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# Licensed under The MIT License [see LICENSE for details]
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# --------------------------------------------------------
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import torch
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from torch.cuda.amp import custom_bwd, custom_fwd
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from torch.autograd.function import Function, once_differentiable
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from mmcv.utils import ext_loader
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ext_module = ext_loader.load_ext(
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'_ext', ['ms_deform_attn_backward', 'ms_deform_attn_forward'])
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class MultiScaleDeformableAttnFunction_fp16(Function):
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@staticmethod
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@custom_fwd(cast_inputs=torch.float16)
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def forward(ctx, value, value_spatial_shapes, value_level_start_index,
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sampling_locations, attention_weights, im2col_step):
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"""GPU version of multi-scale deformable attention.
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Args:
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value (Tensor): The value has shape
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(bs, num_keys, mum_heads, embed_dims//num_heads)
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value_spatial_shapes (Tensor): Spatial shape of
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each feature map, has shape (num_levels, 2),
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last dimension 2 represent (h, w)
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sampling_locations (Tensor): The location of sampling points,
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has shape
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(bs ,num_queries, num_heads, num_levels, num_points, 2),
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the last dimension 2 represent (x, y).
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attention_weights (Tensor): The weight of sampling points used
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when calculate the attention, has shape
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(bs ,num_queries, num_heads, num_levels, num_points),
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im2col_step (Tensor): The step used in image to column.
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Returns:
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Tensor: has shape (bs, num_queries, embed_dims)
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"""
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ctx.im2col_step = im2col_step
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output = ext_module.ms_deform_attn_forward(
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value,
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value_spatial_shapes,
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value_level_start_index,
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sampling_locations,
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attention_weights,
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im2col_step=ctx.im2col_step)
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ctx.save_for_backward(value, value_spatial_shapes,
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value_level_start_index, sampling_locations,
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attention_weights)
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return output
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@staticmethod
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@once_differentiable
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@custom_bwd
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def backward(ctx, grad_output):
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"""GPU version of backward function.
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Args:
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grad_output (Tensor): Gradient
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of output tensor of forward.
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Returns:
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Tuple[Tensor]: Gradient
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of input tensors in forward.
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"""
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value, value_spatial_shapes, value_level_start_index, \
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sampling_locations, attention_weights = ctx.saved_tensors
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grad_value = torch.zeros_like(value)
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grad_sampling_loc = torch.zeros_like(sampling_locations)
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grad_attn_weight = torch.zeros_like(attention_weights)
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ext_module.ms_deform_attn_backward(
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value,
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value_spatial_shapes,
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value_level_start_index,
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sampling_locations,
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attention_weights,
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grad_output.contiguous(),
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grad_value,
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grad_sampling_loc,
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grad_attn_weight,
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im2col_step=ctx.im2col_step)
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return grad_value, None, None, \
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grad_sampling_loc, grad_attn_weight, None
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class MultiScaleDeformableAttnFunction_fp32_old(Function):
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@staticmethod
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@custom_fwd(cast_inputs=torch.float32)
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def forward(ctx, value, value_spatial_shapes, value_level_start_index,
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sampling_locations, attention_weights, im2col_step):
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"""GPU version of multi-scale deformable attention.
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Args:
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value (Tensor): The value has shape
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(bs, num_keys, mum_heads, embed_dims//num_heads)
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value_spatial_shapes (Tensor): Spatial shape of
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each feature map, has shape (num_levels, 2),
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last dimension 2 represent (h, w)
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sampling_locations (Tensor): The location of sampling points,
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has shape
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(bs ,num_queries, num_heads, num_levels, num_points, 2),
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the last dimension 2 represent (x, y).
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attention_weights (Tensor): The weight of sampling points used
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when calculate the attention, has shape
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(bs ,num_queries, num_heads, num_levels, num_points),
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im2col_step (Tensor): The step used in image to column.
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Returns:
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Tensor: has shape (bs, num_queries, embed_dims)
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"""
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ctx.im2col_step = im2col_step
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output = ext_module.ms_deform_attn_forward(
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value.to(torch.float),
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value_spatial_shapes,
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value_level_start_index,
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sampling_locations.to(torch.float),
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attention_weights.to(torch.float),
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im2col_step=ctx.im2col_step).to(torch.float16)
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ctx.save_for_backward(value, value_spatial_shapes,
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value_level_start_index, sampling_locations,
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attention_weights)
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return output
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@staticmethod
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@once_differentiable
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@custom_bwd
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def backward(ctx, grad_output):
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"""GPU version of backward function.
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Args:
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grad_output (Tensor): Gradient
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of output tensor of forward.
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Returns:
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Tuple[Tensor]: Gradient
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of input tensors in forward.
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"""
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value, value_spatial_shapes, value_level_start_index, \
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sampling_locations, attention_weights = ctx.saved_tensors
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grad_value = torch.zeros_like(value)
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grad_sampling_loc = torch.zeros_like(sampling_locations)
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grad_attn_weight = torch.zeros_like(attention_weights)
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ext_module.ms_deform_attn_backward(
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value,
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value_spatial_shapes,
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value_level_start_index,
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sampling_locations,
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attention_weights,
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grad_output.contiguous(),
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grad_value,
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grad_sampling_loc,
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grad_attn_weight,
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im2col_step=ctx.im2col_step)
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return grad_value, None, None, \
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grad_sampling_loc, grad_attn_weight, None
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# Copyright (c) OpenMMLab. All rights reserved.
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import math
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import warnings
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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from torch.autograd.function import Function, once_differentiable
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from mmcv import deprecated_api_warning
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from mmcv.cnn import constant_init, xavier_init
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from mmcv.cnn.bricks.registry import ATTENTION
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from mmcv.runner import BaseModule
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ext_module = ext_loader.load_ext(
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'_ext', ['ms_deform_attn_backward', 'ms_deform_attn_forward'])
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import functools
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import time
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from collections import defaultdict
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import torch
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from mmcv.ops import MultiScaleDeformableAttention
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@ATTENTION.register_module()
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class CustomMultiScaleDeformableAttention(MultiScaleDeformableAttention):
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"""An attention module used in Deformable-Detr.
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`Deformable DETR: Deformable Transformers for End-to-End Object Detection.
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<https://arxiv.org/pdf/2010.04159.pdf>`_.
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Args:
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embed_dims (int): The embedding dimension of Attention.
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Default: 256.
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num_heads (int): Parallel attention heads. Default: 64.
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num_levels (int): The number of feature map used in
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Attention. Default: 4.
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num_points (int): The number of sampling points for
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each query in each head. Default: 4.
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im2col_step (int): The step used in image_to_column.
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Default: 64.
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dropout (float): A Dropout layer on `inp_identity`.
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Default: 0.1.
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batch_first (bool): Key, Query and Value are shape of
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(batch, n, embed_dim)
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or (n, batch, embed_dim). Default to False.
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norm_cfg (dict): Config dict for normalization layer.
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Default: None.
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init_cfg (obj:`mmcv.ConfigDict`): The Config for initialization.
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Default: None.
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"""
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def __init__(self,
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use_flash=False,
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use_softmax=True,
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**kwargs
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):
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super().__init__(**kwargs)
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self.use_flash = use_flash
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self.use_softmax = use_softmax
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@deprecated_api_warning({'residual': 'identity'},
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cls_name='FlashMultiScaleDeformableAttention')
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# @run_time('ms_attention')
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def forward(self,
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query,
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key=None,
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value=None,
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identity=None,
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query_pos=None,
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key_padding_mask=None,
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reference_points=None,
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spatial_shapes=None,
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level_start_index=None,
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**kwargs):
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"""Forward Function of MultiScaleDeformAttention.
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Args:
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query (torch.Tensor): Query of Transformer with shape
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(num_query, bs, embed_dims).
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key (torch.Tensor): The key tensor with shape
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`(num_key, bs, embed_dims)`.
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value (torch.Tensor): The value tensor with shape
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`(num_key, bs, embed_dims)`.
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identity (torch.Tensor): The tensor used for addition, with the
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same shape as `query`. Default None. If None,
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`query` will be used.
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query_pos (torch.Tensor): The positional encoding for `query`.
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Default: None.
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key_pos (torch.Tensor): The positional encoding for `key`. Default
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None.
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reference_points (torch.Tensor): The normalized reference
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points with shape (bs, num_query, num_levels, 2),
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all elements is range in [0, 1], top-left (0,0),
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bottom-right (1, 1), including padding area.
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or (N, Length_{query}, num_levels, 4), add
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additional two dimensions is (w, h) to
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form reference boxes.
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key_padding_mask (torch.Tensor): ByteTensor for `query`, with
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shape [bs, num_key].
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spatial_shapes (torch.Tensor): Spatial shape of features in
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different levels. With shape (num_levels, 2),
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last dimension represents (h, w).
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level_start_index (torch.Tensor): The start index of each level.
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A tensor has shape ``(num_levels, )`` and can be represented
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as [0, h_0*w_0, h_0*w_0+h_1*w_1, ...].
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Returns:
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torch.Tensor: forwarded results with shape
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[num_query, bs, embed_dims].
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"""
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if value is None:
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value = query
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if identity is None:
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identity = query
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if query_pos is not None:
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query = query + query_pos
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if not self.batch_first:
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# change to (bs, num_query ,embed_dims)
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query = query.permute(1, 0, 2)
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value = value.permute(1, 0, 2)
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bs, num_query, _ = query.shape
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bs, num_value, _ = value.shape
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assert (spatial_shapes[:, 0] * spatial_shapes[:, 1]).sum() == num_value
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value = self.value_proj(value)
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if key_padding_mask is not None:
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value = value.masked_fill(key_padding_mask[..., None], 0.0)
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value = value.view(bs, num_value, self.num_heads, -1)
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query = query.to(value.dtype)
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sampling_offsets = self.sampling_offsets(query).view(
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bs, num_query, self.num_heads, self.num_levels, self.num_points, 2)
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attention_weights = self.attention_weights(query).view(
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bs, num_query, self.num_heads, self.num_levels * self.num_points)
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if not self.use_flash:
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if self.use_softmax:
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attention_weights = attention_weights.softmax(-1)
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attention_weights = attention_weights.view(bs, num_query,
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self.num_heads,
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self.num_levels,
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self.num_points)
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else:
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attention_weights = attention_weights.view(bs, num_query,
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self.num_heads,
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self.num_levels,
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self.num_points, 1)
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if reference_points.shape[-1] == 2:
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offset_normalizer = torch.stack(
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[spatial_shapes[..., 1], spatial_shapes[..., 0]], -1)
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sampling_locations = reference_points[:, :, None, :, None, :] \
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+ sampling_offsets \
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/ offset_normalizer[None, None, None, :, None, :]
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elif reference_points.shape[-1] == 4:
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sampling_locations = reference_points[:, :, None, :, None, :2] \
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+ sampling_offsets / self.num_points \
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* reference_points[:, :, None, :, None, 2:] \
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* 0.5
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else:
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raise ValueError(
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f'Last dim of reference_points must be'
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f' 2 or 4, but get {reference_points.shape[-1]} instead.')
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sampling_locations = sampling_locations.to(sampling_offsets.dtype)
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if torch.cuda.is_available() and value.is_cuda:
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if self.use_flash:
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assert False
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else:
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MultiScaleDeformableAttnFunction = MultiScaleDeformableAttnFunction_fp32_old
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output = MultiScaleDeformableAttnFunction.apply(
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value, spatial_shapes, level_start_index, sampling_locations,
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attention_weights, self.im2col_step)
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else:
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output = multi_scale_deformable_attn_pytorch(
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value, spatial_shapes, sampling_locations, attention_weights)
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output = self.output_proj(output.to(value.dtype))
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if not self.batch_first:
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# (num_query, bs ,embed_dims)
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output = output.permute(1, 0, 2)
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return self.dropout(output) + identity
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