def start(self):
if self.running_state == 'stopped':
self.change_state('running')
self.text.insert(
tk.END,
self.date_entry.get() + ' ' + time.strftime("%I:%M:%S") +
' : ' + 'start processing\n')
self.text.see(tk.END)
# check and create result folder
check_folder(folder=os.path.join(
self.params.dirs['root'], self.params.dirs['classification']),
create=True)
if not check_folder(folder=os.path.join(
self.params.dirs['root'],
self.params.dirs['classification'],
self.params.dirs['results']),
create=True):
self.text.insert(
tk.END,
self.date_entry.get() + ' ' + time.strftime("%I:%M:%S") +
' : ' + 'results folder is created\n')
self.text.see(tk.END)
print('result folders are checked and created')
else:
self.text.insert(
tk.END,
self.date_entry.get() + ' ' + time.strftime("%I:%M:%S") +
' : ' + 'results folder exists\n')
self.text.see(tk.END)
self.onUpdate()
def listen_for_result(self):
'''
Check if there is something in the queue
'''
try:
df_images_processed = self.thread_queue.get(0)
if self.proc_mode == 'test':
df_images_processed.to_csv(os.path.join(
self.test_dir, 'classification_result.csv'),
index=False)
elif self.proc_mode == 'evaluate':
df_images_processed.to_csv(os.path.join(
self.eval_dir, 'classification_result.csv'),
index=False)
cont_table = self.create_contingency(df_images_processed)
self.text.insert(
tk.END,
self.date_entry.get() + ' ' + time.strftime("%I:%M:%S") +
' : ' + 'creating contingency table..\n')
self.text.see(tk.END)
cont_table.to_csv(os.path.join(self.eval_dir,
'contingency_table.csv'),
index=True)
else:
res_folder = os.path.join(self.params.dirs['root'],
self.params.dirs['classification'],
self.params.dirs['results'])
check_folder(folder=res_folder, create=True)
df_images_processed.to_csv(os.path.join(
res_folder, 'classification_result.csv'),
index=False)
self.create_output(df_images_processed)
self.thread_queue.task_done()
self.change_state('checking')
# elapsed = time.time() - t
self.progress['value'] = 1
self.text.insert(
tk.END,
str(df_images_processed.shape[0]) +
' images were processed in ' +
str("{0:.2f}".format(self.process.elapsed)) + ' secs\n')
self.text.see(tk.END)
if self.proc_mode == 'test' or self.proc_mode == 'evaluate':
self.stop()
else:
self.onUpdate()
except queue.Empty:
self.change_state('running')
self.progress['value'] = self.process.cur_progress
self.after(1000, self.listen_for_result)
def create_output(self, df_images_processed):
measure_dir = os.path.join(self.params.dirs['root'],
self.params.dirs['measurement'])
date_folders = df_images_processed['dir1'].unique()
for dfo in date_folders:
df_date = df_images_processed[df_images_processed['dir1'] == dfo]
measure_folders = df_date['dir2'].unique()
for mfo in measure_folders:
# select items
df_measure = df_date[df_date['dir2'] == mfo]
# Check and create folders
cur_dir = os.path.join(measure_dir, dfo, mfo)
self.text.insert(tk.END, 'visiting : ' + cur_dir + '\n')
res_folder1 = os.path.join(self.params.dirs['root'],
self.params.dirs['classification'],
self.params.dirs['results'], dfo)
check_folder(folder=res_folder1, create=True)
res_folder = os.path.join(res_folder1, mfo)
check_folder(folder=res_folder, create=True)
# Write to folders
for index, df_image in df_measure.iterrows():
class_folder = os.path.join(res_folder,
df_image['predicted_type'])
check_folder(folder=class_folder, create=True)
shutil.copy(
os.path.join(df_image['root'], df_image['image_file']),
os.path.join(class_folder, df_image['image_file']))
# Read log
log_file = os.path.join(measure_dir, dfo, mfo,
self.params.files['control'])
log_dict = read_log(log_file)
measured_volume = float(
log_dict['Measured Volume'].split(' ')[0])
measure_datetime = log_dict['Sample DateTime'].split('\t')
measure_date = measure_datetime[0].replace('.', '')
measure_time = measure_datetime[1].replace(':', '')
if not (type(measure_time) == str):
measure_time = time.strftime("%H%M")
if not (type(measure_date) == str):
measure_date = time.strftime("%Y%m%d_%H%M")
scaled = True
if not (measured_volume > 0):
scaled = False
# Create XML
cur_result = XMLWriter()
cur_result.addAllCount(df_measure.shape[0], False)
if scaled:
cur_result.addAllCount(
int(float(df_measure.shape[0]) / measured_volume),
True)
cur_result.addMeasuredVolume(measured_volume)
taxons = df_measure.predicted_type.unique()
for taxon in taxons:
count = df_measure.predicted_type.value_counts()[taxon]
cur_result.addTaxonStat(taxon, int(count), False)
if scaled:
cur_result.addTaxonStat(
taxon, int(float(count) / measured_volume), True)
xml_file = os.path.join(
measure_dir, dfo, mfo,
'MeasureSum_' + measure_date + '_' + measure_time + '.xml')
cur_result.save(targetFile=xml_file)
xml_file_details = os.path.join(
measure_dir, dfo, mfo, 'MeasureDetails_' + measure_date +
'_' + measure_time + '.xml')
file = open(xml_file_details, 'w')
file.close()
def process_oneimage(self, image_file, man_type):
predicted_label = None
predicted_type = 'Others.Others.Unsure'
final_type = None
predicted_strength = None
char_sizes = None
if self.save_cropped:
tmp_folder = os.path.join(os.path.curdir, 'tmp_crop')
check_folder(tmp_folder, create=True)
save_file = os.path.join(tmp_folder, os.path.basename(image_file))
category = 'cropped'
else:
save_file = ''
category = ''
img, char_sizes = classifications.create_image(
image_file,
cropped=True,
correct_RGBShift=self.correct_RGBShift,
save_file=save_file,
category=category)
if img is not None and char_sizes is not None:
if self.params.processing['use_neural'] == 'True':
predicted_label, predicted_strength = self.cnn_taxon.classify(
img, char_sizes=char_sizes)
predicted_type = self.params.type_dict_taxon[str(
predicted_label)]
else:
predicted_strength = 65535
predicted_type = man_type
final_type = predicted_type
# Do checks on threshold, shape and size
row = self.params.threshold_df_taxon.loc[
self.params.threshold_df_taxon['Taxon'] == predicted_type]
if not row.empty:
min_l = row['min_l'].values[0]
max_l = row['max_l'].values[0]
min_rate = row['min_rate'].values[0]
max_rate = row['max_rate'].values[0]
strength_tsh = row['strength_tsh'].values[0]
if char_sizes[0] > 0:
rate = char_sizes[1] / char_sizes[0]
else:
rate = -1
if predicted_strength < strength_tsh:
final_type = 'Others.Others.Unsure'
if char_sizes[0] < min_l: # char_sizes[0] larger axis length
final_type = 'Others.Others.InappropriateSize'
if char_sizes[0] > max_l:
final_type = 'Others.Others.InappropriateSize'
if rate < min_rate or rate > max_rate:
final_type = 'Others.Others.InappropriateShape'
# self.text.insert(tk.END, 'TAXON model result : '+'type : '+predicted_type+' ; strength : '+str(strength_str)+'\n')
# self.text.see(tk.END)
# print(t-time.time())
return predicted_type, final_type, predicted_strength, char_sizes
predicted_label, predicted_prob = cnn_class.classify(img,
char_sizes=(maxl,
minl))
contingency_table[label, predicted_label] += 1
# rows are actual labels, cols are predictions,
df_images_processed['predicted_type'][index] = type_dict[str(
predicted_label)]
df_images_processed['prob_taxon'][index] = predicted_prob
if write_folders:
if image_file != image_file.replace(
'__0', ''): # save only first from the rotated images
cur_dir = os.path.join(save_dir, type_dict[str(predicted_label)])
check_folder(folder=cur_dir, create=True)
shutil.copy(
image_file.replace('__0', '').replace(curdb_dir, base_db),
os.path.join(cur_dir,
os.path.basename(image_file.replace('__0', ''))))
if predicted_label != label:
mis_item = [
image_file, type_dict[str(predicted_label)], type_dict[str(label)]
]
misclassified.append(mis_item)
#
cont_table = pd.DataFrame(
data=contingency_table, # values
