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lovasz_loss.py
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lovasz_loss.py
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# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserve.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Lovasz-Softmax and Jaccard hinge loss in PaddlePaddle"""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import numpy as np
import paddle
from paddle import nn
import paddle.nn.functional as F
from paddleseg.cvlibs import manager
@manager.LOSSES.add_component
class LovaszSoftmaxLoss(nn.Layer):
"""
Multi-class Lovasz-Softmax loss.
Args:
ignore_index (int64): Specifies a target value that is ignored and does not contribute to the input gradient. Default ``255``.
classes (str|list): 'all' for all, 'present' for classes present in labels, or a list of classes to average.
"""
def __init__(self, ignore_index=255, classes='present'):
super(LovaszSoftmaxLoss, self).__init__()
self.ignore_index = ignore_index
self.classes = classes
def forward(self, logits, labels):
r"""
Forward computation.
Args:
logits (Tensor): Shape is [N, C, H, W], logits at each prediction (between -\infty and +\infty).
labels (Tensor): Shape is [N, 1, H, W] or [N, H, W], ground truth labels (between 0 and C - 1).
"""
probas = F.softmax(logits, axis=1)
vprobas, vlabels = flatten_probas(probas, labels, self.ignore_index)
loss = lovasz_softmax_flat(vprobas, vlabels, classes=self.classes)
return loss
@manager.LOSSES.add_component
class LovaszHingeLoss(nn.Layer):
"""
Binary Lovasz hinge loss.
Args:
ignore_index (int64): Specifies a target value that is ignored and does not contribute to the input gradient. Default ``255``.
"""
def __init__(self, ignore_index=255):
super(LovaszHingeLoss, self).__init__()
self.ignore_index = ignore_index
def forward(self, logits, labels):
r"""
Forward computation.
Args:
logits (Tensor): Shape is [N, 1, H, W] or [N, 2, H, W], logits at each pixel (between -\infty and +\infty).
labels (Tensor): Shape is [N, 1, H, W] or [N, H, W], binary ground truth masks (0 or 1).
"""
if logits.shape[1] == 2:
logits = binary_channel_to_unary(logits)
loss = lovasz_hinge_flat(
*flatten_binary_scores(logits, labels, self.ignore_index))
return loss
def lovasz_grad(gt_sorted):
"""
Computes gradient of the Lovasz extension w.r.t sorted errors.
See Alg. 1 in paper.
"""
gts = paddle.sum(gt_sorted)
p = len(gt_sorted)
intersection = gts - paddle.cumsum(gt_sorted, axis=0)
union = gts + paddle.cumsum(1 - gt_sorted, axis=0)
jaccard = 1.0 - intersection.cast('float32') / union.cast('float32')
if p > 1: # cover 1-pixel case
jaccard[1:p] = jaccard[1:p] - jaccard[0:-1]
return jaccard
def binary_channel_to_unary(logits, eps=1e-9):
"""
Converts binary channel logits to unary channel logits for lovasz hinge loss.
"""
probas = F.softmax(logits, axis=1)
probas = probas[:, 1, :, :]
logits = paddle.log(probas + eps / (1 - probas + eps))
logits = logits.unsqueeze(1)
return logits
def lovasz_hinge_flat(logits, labels):
r"""
Binary Lovasz hinge loss.
Args:
logits (Tensor): Shape is [P], logits at each prediction (between -\infty and +\infty).
labels (Tensor): Shape is [P], binary ground truth labels (0 or 1).
"""
if len(labels) == 0:
# only void pixels, the gradients should be 0
return logits.sum() * 0.
signs = 2. * labels - 1.
signs.stop_gradient = True
errors = 1. - logits * signs
if hasattr(paddle, "_legacy_C_ops"):
errors_sorted, perm = paddle._legacy_C_ops.argsort(errors, 'axis', 0,
'descending', True)
else:
errors_sorted, perm = paddle._C_ops.argsort(errors, 'axis', 0,
'descending', True)
errors_sorted.stop_gradient = False
gt_sorted = paddle.gather(labels, perm)
grad = lovasz_grad(gt_sorted)
grad.stop_gradient = True
loss = paddle.sum(F.relu(errors_sorted) * grad)
return loss
def flatten_binary_scores(scores, labels, ignore=None):
"""
Flattens predictions in the batch (binary case).
Remove labels according to 'ignore'.
"""
scores = paddle.reshape(scores, [-1])
labels = paddle.reshape(labels, [-1])
labels.stop_gradient = True
if ignore is None:
return scores, labels
valid = labels != ignore
valid_mask = paddle.reshape(valid, (-1, 1))
indexs = paddle.nonzero(valid_mask)
indexs.stop_gradient = True
vscores = paddle.gather(scores, indexs[:, 0])
vlabels = paddle.gather(labels, indexs[:, 0])
return vscores, vlabels
def lovasz_softmax_flat(probas, labels, classes='present'):
"""
Multi-class Lovasz-Softmax loss.
Args:
probas (Tensor): Shape is [P, C], class probabilities at each prediction (between 0 and 1).
labels (Tensor): Shape is [P], ground truth labels (between 0 and C - 1).
classes (str|list): 'all' for all, 'present' for classes present in labels, or a list of classes to average.
"""
if probas.numel() == 0:
# only void pixels, the gradients should be 0
return probas * 0.
C = probas.shape[1]
losses = []
classes_to_sum = list(range(C)) if classes in ['all', 'present'
] else classes
for c in classes_to_sum:
fg = paddle.cast(labels == c, probas.dtype) # foreground for class c
if classes == 'present' and fg.sum() == 0:
continue
fg.stop_gradient = True
if C == 1:
if len(classes_to_sum) > 1:
raise ValueError('Sigmoid output possible only with 1 class')
class_pred = probas[:, 0]
else:
class_pred = probas[:, c]
errors = paddle.abs(fg - class_pred)
if hasattr(paddle, "_legacy_C_ops"):
errors_sorted, perm = paddle._legacy_C_ops.argsort(
errors, 'axis', 0, 'descending', True)
else:
errors_sorted, perm = paddle._C_ops.argsort(errors, 'axis', 0,
'descending', True)
errors_sorted.stop_gradient = False
fg_sorted = paddle.gather(fg, perm)
fg_sorted.stop_gradient = True
grad = lovasz_grad(fg_sorted)
grad.stop_gradient = True
loss = paddle.sum(errors_sorted * grad)
losses.append(loss)
if len(classes_to_sum) == 1:
return losses[0]
losses_tensor = paddle.stack(losses)
mean_loss = paddle.mean(losses_tensor)
return mean_loss
def flatten_probas(probas, labels, ignore=None):
"""
Flattens predictions in the batch.
"""
if len(probas.shape) == 3:
probas = paddle.unsqueeze(probas, axis=1)
C = probas.shape[1]
probas = paddle.transpose(probas, [0, 2, 3, 1])
probas = paddle.reshape(probas, [-1, C])
labels = paddle.reshape(labels, [-1])
if ignore is None:
return probas, labels
valid = labels != ignore
valid_mask = paddle.reshape(valid, [-1, 1])
indexs = paddle.nonzero(valid_mask)
indexs.stop_gradient = True
vprobas = paddle.gather(probas, indexs[:, 0])
vlabels = paddle.gather(labels, indexs[:, 0])
return vprobas, vlabels