PaddleClas/ppcls/metric/metrics.py

# 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.

import numpy as np
import paddle
import paddle.nn as nn


class TopkAcc(nn.Layer):
    def __init__(self, topk=(1, 5)):
        super().__init__()
        assert isinstance(topk, (int, list, tuple))
        if isinstance(topk, int):
            topk = [topk]
        self.topk = topk

    def forward(self, x, label):
        if isinstance(x, dict):
            x = x["logits"]

        metric_dict = dict()
        for k in self.topk:
            metric_dict["top{}".format(k)] = paddle.metric.accuracy(
                x, label, k=k)
        return metric_dict


class mAP(nn.Layer):
    def __init__(self):
        super().__init__()

    def forward(self, similarities_matrix, query_img_id, gallery_img_id,
                keep_mask):
        metric_dict = dict()

        choosen_indices = paddle.argsort(
            similarities_matrix, axis=1, descending=True)
        gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])
        gallery_labels_transpose = paddle.broadcast_to(
            gallery_labels_transpose,
            shape=[
                choosen_indices.shape[0], gallery_labels_transpose.shape[1]
            ])
        choosen_label = paddle.index_sample(gallery_labels_transpose,
                                            choosen_indices)
        equal_flag = paddle.equal(choosen_label, query_img_id)
        if keep_mask is not None:
            keep_mask = paddle.index_sample(
                keep_mask.astype('float32'), choosen_indices)
            equal_flag = paddle.logical_and(equal_flag,
                                            keep_mask.astype('bool'))
        equal_flag = paddle.cast(equal_flag, 'float32')

        num_rel = paddle.sum(equal_flag, axis=1)
        num_rel = paddle.greater_than(num_rel, paddle.to_tensor(0.))
        num_rel_index = paddle.nonzero(num_rel.astype("int"))
        num_rel_index = paddle.reshape(num_rel_index, [num_rel_index.shape[0]])
        equal_flag = paddle.index_select(equal_flag, num_rel_index, axis=0)

        acc_sum = paddle.cumsum(equal_flag, axis=1)
        div = paddle.arange(acc_sum.shape[1]).astype("float32") + 1
        precision = paddle.divide(acc_sum, div)

        #calc map
        precision_mask = paddle.multiply(equal_flag, precision)
        ap = paddle.sum(precision_mask, axis=1) / paddle.sum(equal_flag,
                                                             axis=1)
        metric_dict["mAP"] = paddle.mean(ap).numpy()[0]
        return metric_dict


class mINP(nn.Layer):
    def __init__(self):
        super().__init__()

    def forward(self, similarities_matrix, query_img_id, gallery_img_id,
                keep_mask):
        metric_dict = dict()

        choosen_indices = paddle.argsort(
            similarities_matrix, axis=1, descending=True)
        gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])
        gallery_labels_transpose = paddle.broadcast_to(
            gallery_labels_transpose,
            shape=[
                choosen_indices.shape[0], gallery_labels_transpose.shape[1]
            ])
        choosen_label = paddle.index_sample(gallery_labels_transpose,
                                            choosen_indices)
        equal_flag = paddle.equal(choosen_label, query_img_id)
        if keep_mask is not None:
            keep_mask = paddle.index_sample(
                keep_mask.astype('float32'), choosen_indices)
            equal_flag = paddle.logical_and(equal_flag,
                                            keep_mask.astype('bool'))
        equal_flag = paddle.cast(equal_flag, 'float64')

        num_rel = paddle.sum(equal_flag, axis=1)
        num_rel = paddle.greater_than(num_rel, paddle.to_tensor(0.))
        num_rel_index = paddle.nonzero(num_rel.astype("int"))
        num_rel_index = paddle.reshape(num_rel_index, [num_rel_index.shape[0]])
        equal_flag = paddle.index_select(equal_flag, num_rel_index, axis=0)

        #do accumulative sum
        div = paddle.arange(equal_flag.shape[1]).astype("float64") + 2
        minus = paddle.divide(equal_flag, div)
        auxilary = paddle.subtract(equal_flag, minus)
        hard_index = paddle.argmax(auxilary, axis=1).astype("float64")
        all_INP = paddle.divide(paddle.sum(equal_flag, axis=1), hard_index)
        mINP = paddle.mean(all_INP)
        metric_dict["mINP"] = mINP.numpy()[0]
        return metric_dict


class Recallk(nn.Layer):
    def __init__(self, topk=(1, 5)):
        super().__init__()
        assert isinstance(topk, (int, list, tuple))
        if isinstance(topk, int):
            topk = [topk]
        self.topk = topk

    def forward(self, similarities_matrix, query_img_id, gallery_img_id,
                keep_mask):
        metric_dict = dict()

        #get cmc
        choosen_indices = paddle.argsort(
            similarities_matrix, axis=1, descending=True)
        gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])
        gallery_labels_transpose = paddle.broadcast_to(
            gallery_labels_transpose,
            shape=[
                choosen_indices.shape[0], gallery_labels_transpose.shape[1]
            ])
        choosen_label = paddle.index_sample(gallery_labels_transpose,
                                            choosen_indices)
        equal_flag = paddle.equal(choosen_label, query_img_id)
        if keep_mask is not None:
            keep_mask = paddle.index_sample(
                keep_mask.astype('float32'), choosen_indices)
            equal_flag = paddle.logical_and(equal_flag,
                                            keep_mask.astype('bool'))
        equal_flag = paddle.cast(equal_flag, 'float32')
        real_query_num = paddle.sum(equal_flag, axis=1)
        real_query_num = paddle.sum(
            paddle.greater_than(real_query_num, paddle.to_tensor(0.)).astype(
                "float32"))

        acc_sum = paddle.cumsum(equal_flag, axis=1)
        mask = paddle.greater_than(acc_sum,
                                   paddle.to_tensor(0.)).astype("float32")
        all_cmc = (paddle.sum(mask, axis=0) / real_query_num).numpy()

        for k in self.topk:
            metric_dict["recall{}".format(k)] = all_cmc[k - 1]
        return metric_dict


class DistillationTopkAcc(TopkAcc):
    def __init__(self, model_key, feature_key=None, topk=(1, 5)):
        super().__init__(topk=topk)
        self.model_key = model_key
        self.feature_key = feature_key

    def forward(self, x, label):
        x = x[self.model_key]
        if self.feature_key is not None:
            x = x[self.feature_key]
        return super().forward(x, label)


class GoogLeNetTopkAcc(TopkAcc):
    def __init__(self, topk=(1, 5)):
        super().__init__()
        assert isinstance(topk, (int, list, tuple))
        if isinstance(topk, int):
            topk = [topk]
        self.topk = topk

    def forward(self, x, label):
        return super().forward(x[0], label)
update metric 2021-06-04 22:19:04 +08:00			`# 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.`

			`import numpy as np`
			`import paddle`
			`import paddle.nn as nn`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
add default metrics 2021-06-04 22:56:12 +08:00			`class TopkAcc(nn.Layer):`
update metric 2021-06-04 22:19:04 +08:00			`def __init__(self, topk=(1, 5)):`
			`super().__init__()`
			`assert isinstance(topk, (int, list, tuple))`
			`if isinstance(topk, int):`
			`topk = [topk]`
			`self.topk = topk`

			`def forward(self, x, label):`
			`if isinstance(x, dict):`
			`x = x["logits"]`

			`metric_dict = dict()`
			`for k in self.topk:`
			`metric_dict["top{}".format(k)] = paddle.metric.accuracy(`
			`x, label, k=k)`
			`return metric_dict`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
update metric 2021-06-04 22:19:04 +08:00			`class mAP(nn.Layer):`
fix yaml bugs 2021-06-05 18:33:50 +08:00			`def __init__(self):`
update metric 2021-06-04 22:19:04 +08:00			`super().__init__()`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`def forward(self, similarities_matrix, query_img_id, gallery_img_id,`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`keep_mask):`
update metric 2021-06-04 22:19:04 +08:00			`metric_dict = dict()`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
			`choosen_indices = paddle.argsort(`
			`similarities_matrix, axis=1, descending=True)`
			`gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])`
			`gallery_labels_transpose = paddle.broadcast_to(`
			`gallery_labels_transpose,`
			`shape=[`
			`choosen_indices.shape[0], gallery_labels_transpose.shape[1]`
			`])`
			`choosen_label = paddle.index_sample(gallery_labels_transpose,`
			`choosen_indices)`
Update metrics.py 2021-06-11 14:42:24 +08:00			`equal_flag = paddle.equal(choosen_label, query_img_id)`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`if keep_mask is not None:`
			`keep_mask = paddle.index_sample(`
			`keep_mask.astype('float32'), choosen_indices)`
			`equal_flag = paddle.logical_and(equal_flag,`
			`keep_mask.astype('bool'))`
Update metrics.py 2021-06-11 10:24:21 +08:00			`equal_flag = paddle.cast(equal_flag, 'float32')`

fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`num_rel = paddle.sum(equal_flag, axis=1)`
			`num_rel = paddle.greater_than(num_rel, paddle.to_tensor(0.))`
			`num_rel_index = paddle.nonzero(num_rel.astype("int"))`
			`num_rel_index = paddle.reshape(num_rel_index, [num_rel_index.shape[0]])`
			`equal_flag = paddle.index_select(equal_flag, num_rel_index, axis=0)`

Update metrics.py 2021-06-11 10:24:21 +08:00			`acc_sum = paddle.cumsum(equal_flag, axis=1)`
			`div = paddle.arange(acc_sum.shape[1]).astype("float32") + 1`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`precision = paddle.divide(acc_sum, div)`
Update metrics.py 2021-06-11 10:24:21 +08:00
			`#calc map`
			`precision_mask = paddle.multiply(equal_flag, precision)`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`ap = paddle.sum(precision_mask, axis=1) / paddle.sum(equal_flag,`
			`axis=1)`
Update metrics.py 2021-06-11 10:24:21 +08:00			`metric_dict["mAP"] = paddle.mean(ap).numpy()[0]`
update metric 2021-06-04 22:19:04 +08:00			`return metric_dict`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
update metric 2021-06-04 22:19:04 +08:00			`class mINP(nn.Layer):`
fix yaml bugs 2021-06-05 18:33:50 +08:00			`def __init__(self):`
update metric 2021-06-04 22:19:04 +08:00			`super().__init__()`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`def forward(self, similarities_matrix, query_img_id, gallery_img_id,`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`keep_mask):`
update metric 2021-06-04 22:19:04 +08:00			`metric_dict = dict()`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
			`choosen_indices = paddle.argsort(`
			`similarities_matrix, axis=1, descending=True)`
			`gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])`
			`gallery_labels_transpose = paddle.broadcast_to(`
			`gallery_labels_transpose,`
			`shape=[`
			`choosen_indices.shape[0], gallery_labels_transpose.shape[1]`
			`])`
			`choosen_label = paddle.index_sample(gallery_labels_transpose,`
			`choosen_indices)`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`equal_flag = paddle.equal(choosen_label, query_img_id)`
			`if keep_mask is not None:`
			`keep_mask = paddle.index_sample(`
			`keep_mask.astype('float32'), choosen_indices)`
			`equal_flag = paddle.logical_and(equal_flag,`
			`keep_mask.astype('bool'))`
			`equal_flag = paddle.cast(equal_flag, 'float64')`

			`num_rel = paddle.sum(equal_flag, axis=1)`
			`num_rel = paddle.greater_than(num_rel, paddle.to_tensor(0.))`
			`num_rel_index = paddle.nonzero(num_rel.astype("int"))`
			`num_rel_index = paddle.reshape(num_rel_index, [num_rel_index.shape[0]])`
			`equal_flag = paddle.index_select(equal_flag, num_rel_index, axis=0)`
Update metrics.py 2021-06-11 10:24:21 +08:00
			`#do accumulative sum`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`div = paddle.arange(equal_flag.shape[1]).astype("float64") + 2`
			`minus = paddle.divide(equal_flag, div)`
			`auxilary = paddle.subtract(equal_flag, minus)`
Update metrics.py 2021-06-11 10:24:21 +08:00			`hard_index = paddle.argmax(auxilary, axis=1).astype("float64")`
fix map minp metric bugs 2021-06-23 12:37:46 +08:00			`all_INP = paddle.divide(paddle.sum(equal_flag, axis=1), hard_index)`
Update metrics.py 2021-06-11 10:24:21 +08:00			`mINP = paddle.mean(all_INP)`
			`metric_dict["mINP"] = mINP.numpy()[0]`
update metric 2021-06-04 22:19:04 +08:00			`return metric_dict`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
update metric 2021-06-04 22:19:04 +08:00			`class Recallk(nn.Layer):`
fix metric issues 2021-06-05 17:49:36 +08:00			`def __init__(self, topk=(1, 5)):`
update metric 2021-06-04 22:19:04 +08:00			`super().__init__()`
Update metrics.py 2021-06-10 10:39:50 +08:00			`assert isinstance(topk, (int, list, tuple))`
update metric 2021-06-04 22:19:04 +08:00			`if isinstance(topk, int):`
			`topk = [topk]`
			`self.topk = topk`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`def forward(self, similarities_matrix, query_img_id, gallery_img_id,`
			`keep_mask):`
update metric 2021-06-04 22:19:04 +08:00			`metric_dict = dict()`
Update metrics.py 2021-06-11 10:24:21 +08:00
			`#get cmc`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`choosen_indices = paddle.argsort(`
			`similarities_matrix, axis=1, descending=True)`
			`gallery_labels_transpose = paddle.transpose(gallery_img_id, [1, 0])`
			`gallery_labels_transpose = paddle.broadcast_to(`
			`gallery_labels_transpose,`
			`shape=[`
			`choosen_indices.shape[0], gallery_labels_transpose.shape[1]`
			`])`
			`choosen_label = paddle.index_sample(gallery_labels_transpose,`
			`choosen_indices)`
Update metrics.py 2021-06-11 14:42:24 +08:00			`equal_flag = paddle.equal(choosen_label, query_img_id)`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`if keep_mask is not None:`
			`keep_mask = paddle.index_sample(`
			`keep_mask.astype('float32'), choosen_indices)`
			`equal_flag = paddle.logical_and(equal_flag,`
			`keep_mask.astype('bool'))`
Update metrics.py 2021-06-11 10:24:21 +08:00			`equal_flag = paddle.cast(equal_flag, 'float32')`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`real_query_num = paddle.sum(equal_flag, axis=1)`
			`real_query_num = paddle.sum(`
			`paddle.greater_than(real_query_num, paddle.to_tensor(0.)).astype(`
			`"float32"))`

Update metrics.py 2021-06-11 10:24:21 +08:00			`acc_sum = paddle.cumsum(equal_flag, axis=1)`
fix reid recall metric bugs 2021-06-22 17:08:02 +08:00			`mask = paddle.greater_than(acc_sum,`
			`paddle.to_tensor(0.)).astype("float32")`
			`all_cmc = (paddle.sum(mask, axis=0) / real_query_num).numpy()`
update metric 2021-06-04 22:19:04 +08:00
			`for k in self.topk:`
			`metric_dict["recall{}".format(k)] = all_cmc[k - 1]`
			`return metric_dict`

fix reid recall metric bugs 2021-06-22 17:08:02 +08:00
add distillation and fix some apis (#810) * fix save load and imagenet dataset * refine trainer 2021-06-10 16:30:05 +08:00			`class DistillationTopkAcc(TopkAcc):`
			`def __init__(self, model_key, feature_key=None, topk=(1, 5)):`
			`super().__init__(topk=topk)`
			`self.model_key = model_key`
			`self.feature_key = feature_key`

			`def forward(self, x, label):`
			`x = x[self.model_key]`
			`if self.feature_key is not None:`
			`x = x[self.feature_key]`
			`return super().forward(x, label)`
Update GoogLeNetLoss 2021-06-22 09:58:03 +08:00

			`class GoogLeNetTopkAcc(TopkAcc):`
			`def __init__(self, topk=(1, 5)):`
			`super().__init__()`
			`assert isinstance(topk, (int, list, tuple))`
			`if isinstance(topk, int):`
			`topk = [topk]`
			`self.topk = topk`

			`def forward(self, x, label):`
			`return super().forward(x[0], label)`