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import torch | |
import numpy as np | |
def batch_episym(x1, x2, F): | |
batch_size, num_pts = x1.shape[0], x1.shape[1] | |
x1 = torch.cat([x1, x1.new_ones(batch_size, num_pts, 1)], dim=-1).reshape( | |
batch_size, num_pts, 3, 1 | |
) | |
x2 = torch.cat([x2, x2.new_ones(batch_size, num_pts, 1)], dim=-1).reshape( | |
batch_size, num_pts, 3, 1 | |
) | |
F = F.reshape(-1, 1, 3, 3).repeat(1, num_pts, 1, 1) | |
x2Fx1 = torch.matmul(x2.transpose(2, 3), torch.matmul(F, x1)).reshape( | |
batch_size, num_pts | |
) | |
Fx1 = torch.matmul(F, x1).reshape(batch_size, num_pts, 3) | |
Ftx2 = torch.matmul(F.transpose(2, 3), x2).reshape(batch_size, num_pts, 3) | |
ys = ( | |
x2Fx1**2 | |
* ( | |
1.0 / (Fx1[:, :, 0] ** 2 + Fx1[:, :, 1] ** 2 + 1e-15) | |
+ 1.0 / (Ftx2[:, :, 0] ** 2 + Ftx2[:, :, 1] ** 2 + 1e-15) | |
) | |
).sqrt() | |
return ys | |
def CELoss(seed_x1, seed_x2, e, confidence, inlier_th, batch_mask=1): | |
# seed_x: b*k*2 | |
ys = batch_episym(seed_x1, seed_x2, e) | |
mask_pos, mask_neg = (ys <= inlier_th).float(), (ys > inlier_th).float() | |
num_pos, num_neg = ( | |
torch.relu(torch.sum(mask_pos, dim=1) - 1.0) + 1.0, | |
torch.relu(torch.sum(mask_neg, dim=1) - 1.0) + 1.0, | |
) | |
loss_pos, loss_neg = ( | |
-torch.log(abs(confidence) + 1e-8) * mask_pos, | |
-torch.log(abs(1 - confidence) + 1e-8) * mask_neg, | |
) | |
classif_loss = torch.mean( | |
loss_pos * 0.5 / num_pos.unsqueeze(-1) + loss_neg * 0.5 / num_neg.unsqueeze(-1), | |
dim=-1, | |
) | |
classif_loss = classif_loss * batch_mask | |
classif_loss = classif_loss.mean() | |
precision = torch.mean( | |
torch.sum((confidence > 0.5).type(confidence.type()) * mask_pos, dim=1) | |
/ (torch.sum((confidence > 0.5).type(confidence.type()), dim=1) + 1e-8) | |
) | |
recall = torch.mean( | |
torch.sum((confidence > 0.5).type(confidence.type()) * mask_pos, dim=1) | |
/ num_pos | |
) | |
return classif_loss, precision, recall | |
def CorrLoss(desc_mat, batch_num_corr, batch_num_incorr1, batch_num_incorr2): | |
total_loss_corr, total_loss_incorr = 0, 0 | |
total_acc_corr, total_acc_incorr = 0, 0 | |
batch_size = desc_mat.shape[0] | |
log_p = torch.log(abs(desc_mat) + 1e-8) | |
for i in range(batch_size): | |
cur_log_p = log_p[i] | |
num_corr = batch_num_corr[i] | |
num_incorr1, num_incorr2 = batch_num_incorr1[i], batch_num_incorr2[i] | |
# loss and acc | |
loss_corr = -torch.diag(cur_log_p)[:num_corr].mean() | |
loss_incorr = ( | |
-cur_log_p[num_corr : num_corr + num_incorr1, -1].mean() | |
- cur_log_p[-1, num_corr : num_corr + num_incorr2].mean() | |
) / 2 | |
value_row, row_index = torch.max(desc_mat[i, :-1, :-1], dim=-1) | |
value_col, col_index = torch.max(desc_mat[i, :-1, :-1], dim=-2) | |
acc_incorr = ( | |
(value_row[num_corr : num_corr + num_incorr1] < 0.2).float().mean() | |
+ (value_col[num_corr : num_corr + num_incorr2] < 0.2).float().mean() | |
) / 2 | |
acc_row_mask = row_index[:num_corr] == torch.arange(num_corr).cuda() | |
acc_col_mask = col_index[:num_corr] == torch.arange(num_corr).cuda() | |
acc = (acc_col_mask & acc_row_mask).float().mean() | |
total_loss_corr += loss_corr | |
total_loss_incorr += loss_incorr | |
total_acc_corr += acc | |
total_acc_incorr += acc_incorr | |
total_acc_corr /= batch_size | |
total_acc_incorr /= batch_size | |
total_loss_corr /= batch_size | |
total_loss_incorr /= batch_size | |
return total_loss_corr, total_loss_incorr, total_acc_corr, total_acc_incorr | |
class SGMLoss: | |
def __init__(self, config, model_config): | |
self.config = config | |
self.model_config = model_config | |
def run(self, data, result): | |
loss_corr, loss_incorr, acc_corr, acc_incorr = CorrLoss( | |
result["p"], data["num_corr"], data["num_incorr1"], data["num_incorr2"] | |
) | |
loss_mid_corr_tower, loss_mid_incorr_tower, acc_mid_tower = [], [], [] | |
# mid loss | |
for i in range(len(result["mid_p"])): | |
mid_p = result["mid_p"][i] | |
loss_mid_corr, loss_mid_incorr, mid_acc_corr, mid_acc_incorr = CorrLoss( | |
mid_p, data["num_corr"], data["num_incorr1"], data["num_incorr2"] | |
) | |
loss_mid_corr_tower.append(loss_mid_corr), loss_mid_incorr_tower.append( | |
loss_mid_incorr | |
), acc_mid_tower.append(mid_acc_corr) | |
if len(result["mid_p"]) != 0: | |
loss_mid_corr_tower, loss_mid_incorr_tower, acc_mid_tower = ( | |
torch.stack(loss_mid_corr_tower), | |
torch.stack(loss_mid_incorr_tower), | |
torch.stack(acc_mid_tower), | |
) | |
else: | |
loss_mid_corr_tower, loss_mid_incorr_tower, acc_mid_tower = ( | |
torch.zeros(1).cuda(), | |
torch.zeros(1).cuda(), | |
torch.zeros(1).cuda(), | |
) | |
# seed confidence loss | |
classif_loss_tower, classif_precision_tower, classif_recall_tower = [], [], [] | |
for layer in range(len(result["seed_conf"])): | |
confidence = result["seed_conf"][layer] | |
seed_index = result["seed_index"][ | |
(np.asarray(self.model_config.seedlayer) <= layer).nonzero()[0][-1] | |
] | |
seed_x1, seed_x2 = data["x1"].gather( | |
dim=1, index=seed_index[:, :, 0, None].expand(-1, -1, 2) | |
), data["x2"].gather( | |
dim=1, index=seed_index[:, :, 1, None].expand(-1, -1, 2) | |
) | |
classif_loss, classif_precision, classif_recall = CELoss( | |
seed_x1, seed_x2, data["e_gt"], confidence, self.config.inlier_th | |
) | |
classif_loss_tower.append(classif_loss), classif_precision_tower.append( | |
classif_precision | |
), classif_recall_tower.append(classif_recall) | |
classif_loss, classif_precision_tower, classif_recall_tower = ( | |
torch.stack(classif_loss_tower).mean(), | |
torch.stack(classif_precision_tower), | |
torch.stack(classif_recall_tower), | |
) | |
classif_loss *= self.config.seed_loss_weight | |
loss_mid_corr_tower *= self.config.mid_loss_weight | |
loss_mid_incorr_tower *= self.config.mid_loss_weight | |
total_loss = ( | |
loss_corr | |
+ loss_incorr | |
+ classif_loss | |
+ loss_mid_corr_tower.sum() | |
+ loss_mid_incorr_tower.sum() | |
) | |
return { | |
"loss_corr": loss_corr, | |
"loss_incorr": loss_incorr, | |
"acc_corr": acc_corr, | |
"acc_incorr": acc_incorr, | |
"loss_seed_conf": classif_loss, | |
"pre_seed_conf": classif_precision_tower, | |
"recall_seed_conf": classif_recall_tower, | |
"loss_corr_mid": loss_mid_corr_tower, | |
"loss_incorr_mid": loss_mid_incorr_tower, | |
"mid_acc_corr": acc_mid_tower, | |
"total_loss": total_loss, | |
} | |
class SGLoss: | |
def __init__(self, config, model_config): | |
self.config = config | |
self.model_config = model_config | |
def run(self, data, result): | |
loss_corr, loss_incorr, acc_corr, acc_incorr = CorrLoss( | |
result["p"], data["num_corr"], data["num_incorr1"], data["num_incorr2"] | |
) | |
total_loss = loss_corr + loss_incorr | |
return { | |
"loss_corr": loss_corr, | |
"loss_incorr": loss_incorr, | |
"acc_corr": acc_corr, | |
"acc_incorr": acc_incorr, | |
"total_loss": total_loss, | |
} | |