Spaces:

Anonymous-sub
/

Rerender

Sleeping

App Files Files Community

Rerender / ControlNet /annotator /uniformer /mmcv /ops /deform_roi_pool.py

Anonymous-sub

merge (#1)

251e479 about 1 year ago

raw

history blame

No virus

7.41 kB

	# Copyright (c) OpenMMLab. All rights reserved.
	from torch import nn
	from torch.autograd import Function
	from torch.autograd.function import once_differentiable
	from torch.nn.modules.utils import _pair

	from ..utils import ext_loader

	ext_module = ext_loader.load_ext(
	'_ext', ['deform_roi_pool_forward', 'deform_roi_pool_backward'])


	class DeformRoIPoolFunction(Function):

	@staticmethod
	def symbolic(g, input, rois, offset, output_size, spatial_scale,
	sampling_ratio, gamma):
	return g.op(
	'mmcv::MMCVDeformRoIPool',
	input,
	rois,
	offset,
	pooled_height_i=output_size[0],
	pooled_width_i=output_size[1],
	spatial_scale_f=spatial_scale,
	sampling_ratio_f=sampling_ratio,
	gamma_f=gamma)

	@staticmethod
	def forward(ctx,
	input,
	rois,
	offset,
	output_size,
	spatial_scale=1.0,
	sampling_ratio=0,
	gamma=0.1):
	if offset is None:
	offset = input.new_zeros(0)
	ctx.output_size = _pair(output_size)
	ctx.spatial_scale = float(spatial_scale)
	ctx.sampling_ratio = int(sampling_ratio)
	ctx.gamma = float(gamma)

	assert rois.size(1) == 5, 'RoI must be (idx, x1, y1, x2, y2)!'

	output_shape = (rois.size(0), input.size(1), ctx.output_size[0],
	ctx.output_size[1])
	output = input.new_zeros(output_shape)

	ext_module.deform_roi_pool_forward(
	input,
	rois,
	offset,
	output,
	pooled_height=ctx.output_size[0],
	pooled_width=ctx.output_size[1],
	spatial_scale=ctx.spatial_scale,
	sampling_ratio=ctx.sampling_ratio,
	gamma=ctx.gamma)

	ctx.save_for_backward(input, rois, offset)
	return output

	@staticmethod
	@once_differentiable
	def backward(ctx, grad_output):
	input, rois, offset = ctx.saved_tensors
	grad_input = grad_output.new_zeros(input.shape)
	grad_offset = grad_output.new_zeros(offset.shape)

	ext_module.deform_roi_pool_backward(
	grad_output,
	input,
	rois,
	offset,
	grad_input,
	grad_offset,
	pooled_height=ctx.output_size[0],
	pooled_width=ctx.output_size[1],
	spatial_scale=ctx.spatial_scale,
	sampling_ratio=ctx.sampling_ratio,
	gamma=ctx.gamma)
	if grad_offset.numel() == 0:
	grad_offset = None
	return grad_input, None, grad_offset, None, None, None, None


	deform_roi_pool = DeformRoIPoolFunction.apply


	class DeformRoIPool(nn.Module):

	def __init__(self,
	output_size,
	spatial_scale=1.0,
	sampling_ratio=0,
	gamma=0.1):
	super(DeformRoIPool, self).__init__()
	self.output_size = _pair(output_size)
	self.spatial_scale = float(spatial_scale)
	self.sampling_ratio = int(sampling_ratio)
	self.gamma = float(gamma)

	def forward(self, input, rois, offset=None):
	return deform_roi_pool(input, rois, offset, self.output_size,
	self.spatial_scale, self.sampling_ratio,
	self.gamma)


	class DeformRoIPoolPack(DeformRoIPool):

	def __init__(self,
	output_size,
	output_channels,
	deform_fc_channels=1024,
	spatial_scale=1.0,
	sampling_ratio=0,
	gamma=0.1):
	super(DeformRoIPoolPack, self).__init__(output_size, spatial_scale,
	sampling_ratio, gamma)

	self.output_channels = output_channels
	self.deform_fc_channels = deform_fc_channels

	self.offset_fc = nn.Sequential(
	nn.Linear(
	self.output_size[0] * self.output_size[1] *
	self.output_channels, self.deform_fc_channels),
	nn.ReLU(inplace=True),
	nn.Linear(self.deform_fc_channels, self.deform_fc_channels),
	nn.ReLU(inplace=True),
	nn.Linear(self.deform_fc_channels,
	self.output_size[0] * self.output_size[1] * 2))
	self.offset_fc[-1].weight.data.zero_()
	self.offset_fc[-1].bias.data.zero_()

	def forward(self, input, rois):
	assert input.size(1) == self.output_channels
	x = deform_roi_pool(input, rois, None, self.output_size,
	self.spatial_scale, self.sampling_ratio,
	self.gamma)
	rois_num = rois.size(0)
	offset = self.offset_fc(x.view(rois_num, -1))
	offset = offset.view(rois_num, 2, self.output_size[0],
	self.output_size[1])
	return deform_roi_pool(input, rois, offset, self.output_size,
	self.spatial_scale, self.sampling_ratio,
	self.gamma)


	class ModulatedDeformRoIPoolPack(DeformRoIPool):

	def __init__(self,
	output_size,
	output_channels,
	deform_fc_channels=1024,
	spatial_scale=1.0,
	sampling_ratio=0,
	gamma=0.1):
	super(ModulatedDeformRoIPoolPack,
	self).__init__(output_size, spatial_scale, sampling_ratio, gamma)

	self.output_channels = output_channels
	self.deform_fc_channels = deform_fc_channels

	self.offset_fc = nn.Sequential(
	nn.Linear(
	self.output_size[0] * self.output_size[1] *
	self.output_channels, self.deform_fc_channels),
	nn.ReLU(inplace=True),
	nn.Linear(self.deform_fc_channels, self.deform_fc_channels),
	nn.ReLU(inplace=True),
	nn.Linear(self.deform_fc_channels,
	self.output_size[0] * self.output_size[1] * 2))
	self.offset_fc[-1].weight.data.zero_()
	self.offset_fc[-1].bias.data.zero_()

	self.mask_fc = nn.Sequential(
	nn.Linear(
	self.output_size[0] * self.output_size[1] *
	self.output_channels, self.deform_fc_channels),
	nn.ReLU(inplace=True),
	nn.Linear(self.deform_fc_channels,
	self.output_size[0] * self.output_size[1] * 1),
	nn.Sigmoid())
	self.mask_fc[2].weight.data.zero_()
	self.mask_fc[2].bias.data.zero_()

	def forward(self, input, rois):
	assert input.size(1) == self.output_channels
	x = deform_roi_pool(input, rois, None, self.output_size,
	self.spatial_scale, self.sampling_ratio,
	self.gamma)
	rois_num = rois.size(0)
	offset = self.offset_fc(x.view(rois_num, -1))
	offset = offset.view(rois_num, 2, self.output_size[0],
	self.output_size[1])
	mask = self.mask_fc(x.view(rois_num, -1))
	mask = mask.view(rois_num, 1, self.output_size[0], self.output_size[1])
	d = deform_roi_pool(input, rois, offset, self.output_size,
	self.spatial_scale, self.sampling_ratio,
	self.gamma)
	return d * mask