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tester_Semantic3D.py
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tester_Semantic3D.py
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from os import makedirs
from os.path import exists, join
from helper_ply import read_ply, write_ply
import tensorflow as tf
import numpy as np
import time
def log_string(out_str, log_out):
log_out.write(out_str + '\n')
log_out.flush()
print(out_str)
class ModelTester:
def __init__(self, model, dataset, restore_snap=None):
# Tensorflow Saver definition
my_vars = tf.get_collection(tf.GraphKeys.GLOBAL_VARIABLES)
self.saver = tf.train.Saver(my_vars, max_to_keep=100)
# Create a session for running Ops on the Graph.
on_cpu = False
if on_cpu:
c_proto = tf.ConfigProto(device_count={'GPU': 0})
else:
c_proto = tf.ConfigProto()
c_proto.gpu_options.allow_growth = True
self.sess = tf.Session(config=c_proto)
self.sess.run(tf.global_variables_initializer())
if restore_snap is not None:
self.saver.restore(self.sess, restore_snap)
print("Model restored from " + restore_snap)
# Add a softmax operation for predictions
self.prob_logits = tf.nn.softmax(model.logits)
self.test_probs = [np.zeros((l.data.shape[0], model.config.num_classes), dtype=np.float16)
for l in dataset.input_trees['test']]
self.log_out = open('log_test_' + dataset.name + '.txt', 'a')
def test(self, model, dataset, num_votes=100):
# Smoothing parameter for votes
test_smooth = 0.98
# Initialise iterator with train data
self.sess.run(dataset.test_init_op)
# Test saving path
saving_path = time.strftime('results/Log_%Y-%m-%d_%H-%M-%S', time.gmtime())
test_path = join('test', saving_path.split('/')[-1])
makedirs(test_path) if not exists(test_path) else None
makedirs(join(test_path, 'predictions')) if not exists(join(test_path, 'predictions')) else None
makedirs(join(test_path, 'probs')) if not exists(join(test_path, 'probs')) else None
#####################
# Network predictions
#####################
step_id = 0
epoch_id = 0
last_min = -0.5
while last_min < num_votes:
try:
ops = (self.prob_logits,
model.labels,
model.inputs['input_inds'],
model.inputs['cloud_inds'],)
stacked_probs, stacked_labels, point_idx, cloud_idx = self.sess.run(ops, {model.is_training: False})
stacked_probs = np.reshape(stacked_probs, [model.config.val_batch_size, model.config.num_points,
model.config.num_classes])
for j in range(np.shape(stacked_probs)[0]):
probs = stacked_probs[j, :, :]
inds = point_idx[j, :]
c_i = cloud_idx[j][0]
self.test_probs[c_i][inds] = test_smooth * self.test_probs[c_i][inds] + (1 - test_smooth) * probs
step_id += 1
log_string('Epoch {:3d}, step {:3d}. min possibility = {:.1f}'.format(epoch_id, step_id, np.min(
dataset.min_possibility['test'])), self.log_out)
except tf.errors.OutOfRangeError:
# Save predicted cloud
new_min = np.min(dataset.min_possibility['test'])
log_string('Epoch {:3d}, end. Min possibility = {:.1f}'.format(epoch_id, new_min), self.log_out)
if last_min + 4 < new_min:
print('Saving clouds')
# Update last_min
last_min = new_min
# Project predictions
print('\nReproject Vote #{:d}'.format(int(np.floor(new_min))))
t1 = time.time()
files = dataset.test_files
i_test = 0
for i, file_path in enumerate(files):
# Get file
points = self.load_evaluation_points(file_path)
points = points.astype(np.float16)
# Reproject probs
probs = np.zeros(shape=[np.shape(points)[0], 8], dtype=np.float16)
proj_index = dataset.test_proj[i_test]
probs = self.test_probs[i_test][proj_index, :]
# Insert false columns for ignored labels
probs2 = probs
for l_ind, label_value in enumerate(dataset.label_values):
if label_value in dataset.ignored_labels:
probs2 = np.insert(probs2, l_ind, 0, axis=1)
# Get the predicted labels
preds = dataset.label_values[np.argmax(probs2, axis=1)].astype(np.uint8)
# Save plys
cloud_name = file_path.split('/')[-1]
# Save ascii preds
ascii_name = join(test_path, 'predictions', dataset.ascii_files[cloud_name])
np.savetxt(ascii_name, preds, fmt='%d')
log_string(ascii_name + 'has saved', self.log_out)
i_test += 1
t2 = time.time()
print('Done in {:.1f} s\n'.format(t2 - t1))
self.sess.close()
return
self.sess.run(dataset.test_init_op)
epoch_id += 1
step_id = 0
continue
return
@staticmethod
def load_evaluation_points(file_path):
data = read_ply(file_path)
return np.vstack((data['x'], data['y'], data['z'])).T