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import torch | |
import torch.nn as nn | |
import torch.nn.functional as F | |
from .BasePIFuNet import BasePIFuNet | |
from .SurfaceClassifier import SurfaceClassifier | |
from .DepthNormalizer import DepthNormalizer | |
from .HGFilters import * | |
from ..net_util import init_net | |
class HGPIFuNet(BasePIFuNet): | |
''' | |
HG PIFu network uses Hourglass stacks as the image filter. | |
It does the following: | |
1. Compute image feature stacks and store it in self.im_feat_list | |
self.im_feat_list[-1] is the last stack (output stack) | |
2. Calculate calibration | |
3. If training, it index on every intermediate stacks, | |
If testing, it index on the last stack. | |
4. Classification. | |
5. During training, error is calculated on all stacks. | |
''' | |
def __init__(self, | |
opt, | |
projection_mode='orthogonal', | |
error_term=nn.MSELoss(), | |
): | |
super(HGPIFuNet, self).__init__( | |
projection_mode=projection_mode, | |
error_term=error_term) | |
self.name = 'hgpifu' | |
self.opt = opt | |
self.num_views = self.opt.num_views | |
self.image_filter = HGFilter(opt) | |
self.surface_classifier = SurfaceClassifier( | |
filter_channels=self.opt.mlp_dim, | |
num_views=self.opt.num_views, | |
no_residual=self.opt.no_residual, | |
last_op=nn.Sigmoid()) | |
self.normalizer = DepthNormalizer(opt) | |
# This is a list of [B x Feat_i x H x W] features | |
self.im_feat_list = [] | |
self.tmpx = None | |
self.normx = None | |
self.intermediate_preds_list = [] | |
init_net(self) | |
def filter(self, images): | |
''' | |
Filter the input images | |
store all intermediate features. | |
:param images: [B, C, H, W] input images | |
''' | |
self.im_feat_list, self.tmpx, self.normx = self.image_filter(images) | |
# If it is not in training, only produce the last im_feat | |
if not self.training: | |
self.im_feat_list = [self.im_feat_list[-1]] | |
def query(self, points, calibs, transforms=None, labels=None): | |
''' | |
Given 3D points, query the network predictions for each point. | |
Image features should be pre-computed before this call. | |
store all intermediate features. | |
query() function may behave differently during training/testing. | |
:param points: [B, 3, N] world space coordinates of points | |
:param calibs: [B, 3, 4] calibration matrices for each image | |
:param transforms: Optional [B, 2, 3] image space coordinate transforms | |
:param labels: Optional [B, Res, N] gt labeling | |
:return: [B, Res, N] predictions for each point | |
''' | |
if labels is not None: | |
self.labels = labels | |
xyz = self.projection(points, calibs, transforms) | |
xy = xyz[:, :2, :] | |
z = xyz[:, 2:3, :] | |
in_img = (xy[:, 0] >= -1.0) & (xy[:, 0] <= 1.0) & (xy[:, 1] >= -1.0) & (xy[:, 1] <= 1.0) | |
z_feat = self.normalizer(z, calibs=calibs) | |
if self.opt.skip_hourglass: | |
tmpx_local_feature = self.index(self.tmpx, xy) | |
self.intermediate_preds_list = [] | |
for im_feat in self.im_feat_list: | |
# [B, Feat_i + z, N] | |
point_local_feat_list = [self.index(im_feat, xy), z_feat] | |
if self.opt.skip_hourglass: | |
point_local_feat_list.append(tmpx_local_feature) | |
point_local_feat = torch.cat(point_local_feat_list, 1) | |
# out of image plane is always set to 0 | |
pred = in_img[:,None].float() * self.surface_classifier(point_local_feat) | |
self.intermediate_preds_list.append(pred) | |
self.preds = self.intermediate_preds_list[-1] | |
def get_im_feat(self): | |
''' | |
Get the image filter | |
:return: [B, C_feat, H, W] image feature after filtering | |
''' | |
return self.im_feat_list[-1] | |
def get_error(self): | |
''' | |
Hourglass has its own intermediate supervision scheme | |
''' | |
error = 0 | |
for preds in self.intermediate_preds_list: | |
error += self.error_term(preds, self.labels) | |
error /= len(self.intermediate_preds_list) | |
return error | |
def forward(self, images, points, calibs, transforms=None, labels=None): | |
# Get image feature | |
self.filter(images) | |
# Phase 2: point query | |
self.query(points=points, calibs=calibs, transforms=transforms, labels=labels) | |
# get the prediction | |
res = self.get_preds() | |
# get the error | |
error = self.get_error() | |
return res, error |