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eval.py
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eval.py
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# -*- coding: utf-8 -*-
import sys
sys.path.append('./Evaluation')
from eval_proposal import ANETproposal
import matplotlib.pyplot as plt
import numpy as np
def run_evaluation(ground_truth_filename, proposal_filename,
max_avg_nr_proposals=100,
tiou_thresholds=np.linspace(0.5, 0.95, 10),
subset='validation'):
anet_proposal = ANETproposal(ground_truth_filename, proposal_filename,
tiou_thresholds=tiou_thresholds,
max_avg_nr_proposals=max_avg_nr_proposals,
subset=subset, verbose=True, check_status=False)
anet_proposal.evaluate()
recall = anet_proposal.recall
average_recall = anet_proposal.avg_recall
average_nr_proposals = anet_proposal.proposals_per_video
return (average_nr_proposals, average_recall, recall)
def plot_metric(opt,average_nr_proposals, average_recall, recall, tiou_thresholds=np.linspace(0.5, 0.95, 10)):
fn_size = 14
plt.figure(num=None, figsize=(12, 8))
ax = plt.subplot(1,1,1)
colors = ['k', 'r', 'yellow', 'b', 'c', 'm', 'b', 'pink', 'lawngreen', 'indigo']
area_under_curve = np.zeros_like(tiou_thresholds)
for i in range(recall.shape[0]):
area_under_curve[i] = np.trapz(recall[i], average_nr_proposals)
for idx, tiou in enumerate(tiou_thresholds[::2]):
ax.plot(average_nr_proposals, recall[2*idx,:], color=colors[idx+1],
label="tiou=[" + str(tiou) + "], area=" + str(int(area_under_curve[2*idx]*100)/100.),
linewidth=4, linestyle='--', marker=None)
# Plots Average Recall vs Average number of proposals.
ax.plot(average_nr_proposals, average_recall, color=colors[0],
label="tiou = 0.5:0.05:0.95," + " area=" + str(int(np.trapz(average_recall, average_nr_proposals)*100)/100.),
linewidth=4, linestyle='-', marker=None)
handles, labels = ax.get_legend_handles_labels()
ax.legend([handles[-1]] + handles[:-1], [labels[-1]] + labels[:-1], loc='best')
plt.ylabel('Average Recall', fontsize=fn_size)
plt.xlabel('Average Number of Proposals per Video', fontsize=fn_size)
plt.grid(b=True, which="both")
plt.ylim([0, 1.0])
plt.setp(plt.axes().get_xticklabels(), fontsize=fn_size)
plt.setp(plt.axes().get_yticklabels(), fontsize=fn_size)
#plt.show()
plt.savefig(opt["save_fig_path"])
def evaluation_proposal(opt):
uniform_average_nr_proposals_valid, uniform_average_recall_valid, uniform_recall_valid = run_evaluation(
"./Evaluation/data/activity_net_1_3_new.json",
opt["result_file"],
max_avg_nr_proposals=100,
tiou_thresholds=np.linspace(0.5, 0.95, 10),
subset='validation')
plot_metric(opt,uniform_average_nr_proposals_valid, uniform_average_recall_valid, uniform_recall_valid)
print "AR@1 is \t",np.mean(uniform_recall_valid[:,0])
print "AR@5 is \t",np.mean(uniform_recall_valid[:,4])
print "AR@10 is \t",np.mean(uniform_recall_valid[:,9])
print "AR@100 is \t",np.mean(uniform_recall_valid[:,-1])