WTAL-Uncertainty-Modeling/utils.py at master · Pilhyeon/WTAL-Uncertainty-Modeling

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import torch

import torch.nn as nn

import numpy as np

from scipy.interpolate import interp1d

import os

import sys

import random

import config

def upgrade_resolution(arr, scale):

x = np.arange(0, arr.shape[0])

f = interp1d(x, arr, kind='linear', axis=0, fill_value='extrapolate')

scale_x = np.arange(0, arr.shape[0], 1 / scale)

up_scale = f(scale_x)

return up_scale

def get_proposal_oic(tList, wtcam, final_score, c_pred, scale, v_len, sampling_frames, num_segments, _lambda=0.25, gamma=0.2):

t_factor = (16 * v_len) / (scale * num_segments * sampling_frames)

temp = []

for i in range(len(tList)):

c_temp = []

temp_list = np.array(tList[i])[0]

if temp_list.any():

grouped_temp_list = grouping(temp_list)

for j in range(len(grouped_temp_list)):

if len(grouped_temp_list[j]) < 2:

continue

inner_score = np.mean(wtcam[grouped_temp_list[j], i, 0])

len_proposal = len(grouped_temp_list[j])

outer_s = max(0, int(grouped_temp_list[j][0] - _lambda * len_proposal))

outer_e = min(int(wtcam.shape[0] - 1), int(grouped_temp_list[j][-1] + _lambda * len_proposal))

outer_temp_list = list(range(outer_s, int(grouped_temp_list[j][0]))) + list(range(int(grouped_temp_list[j][-1] + 1), outer_e + 1))

if len(outer_temp_list) == 0:

outer_score = 0

else:

outer_score = np.mean(wtcam[outer_temp_list, i, 0])

c_score = inner_score - outer_score + gamma * final_score[c_pred[i]]

t_start = grouped_temp_list[j][0] * t_factor

t_end = (grouped_temp_list[j][-1] + 1) * t_factor

c_temp.append([c_pred[i], c_score, t_start, t_end])

temp.append(c_temp)

return temp

def result2json(result):

result_file = []

for i in range(len(result)):

for j in range(len(result[i])):

line = {'label': config.class_dict[result[i][j][0]], 'score': result[i][j][1],

'segment': [result[i][j][2], result[i][j][3]]}

result_file.append(line)

return result_file

def grouping(arr):

return np.split(arr, np.where(np.diff(arr) != 1)[0] + 1)

def save_best_record_thumos(test_info, file_path):

fo = open(file_path, "w")

fo.write("Step: {}\n".format(test_info["step"][-1]))

fo.write("Test_acc: {:.4f}\n".format(test_info["test_acc"][-1]))

fo.write("average_mAP: {:.4f}\n".format(test_info["average_mAP"][-1]))

tIoU_thresh = np.linspace(0.1, 0.7, 7)

for i in range(len(tIoU_thresh)):

fo.write("mAP@{:.1f}: {:.4f}\n".format(tIoU_thresh[i], test_info["mAP@{:.1f}".format(tIoU_thresh[i])][-1]))

fo.close()

def minmax_norm(act_map, min_val=None, max_val=None):

if min_val is None or max_val is None:

relu = nn.ReLU()

max_val = relu(torch.max(act_map, dim=1)[0])

min_val = relu(torch.min(act_map, dim=1)[0])

delta = max_val - min_val

delta[delta <= 0] = 1

ret = (act_map - min_val) / delta

ret[ret > 1] = 1

ret[ret < 0] = 0

return ret

def nms(proposals, thresh):

proposals = np.array(proposals)

x1 = proposals[:, 2]

x2 = proposals[:, 3]

scores = proposals[:, 1]

areas = x2 - x1 + 1

order = scores.argsort()[::-1]

keep = []

while order.size > 0:

i = order[0]

keep.append(proposals[i].tolist())

xx1 = np.maximum(x1[i], x1[order[1:]])

xx2 = np.minimum(x2[i], x2[order[1:]])

inter = np.maximum(0.0, xx2 - xx1 + 1)

iou = inter / (areas[i] + areas[order[1:]] - inter)

inds = np.where(iou < thresh)[0]

order = order[inds + 1]

return keep

def set_seed(seed):

torch.manual_seed(seed)

np.random.seed(seed)

torch.cuda.manual_seed_all(seed)

random.seed(seed)

torch.backends.cudnn.deterministic=True

torch.backends.cudnn.benchmark=False

def save_config(config, file_path):

fo = open(file_path, "w")

fo.write("Configurtaions:\n")

fo.write(str(config))

fo.close()

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