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@@ -13,6 +13,7 @@ import random
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import time
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import time
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import json
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import json
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+from modules.utils.data_type import get_svd_data
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from PIL import Image
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from PIL import Image
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from ipfml import image_processing
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from ipfml import image_processing
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from ipfml import metrics
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from ipfml import metrics
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@@ -32,7 +33,8 @@ path = './fichiersSVD_light'
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zones = np.arange(16)
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zones = np.arange(16)
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seuil_expe_filename = 'seuilExpe'
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seuil_expe_filename = 'seuilExpe'
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-metric_choices = ['lab', 'mscn', 'mscn_revisited', 'low_bits_2', 'low_bits_3', 'low_bits_4']
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+metric_choices = ['lab', 'mscn', 'mscn_revisited', 'low_bits_2', 'low_bits_3', 'low_bits_4', 'low_bits_5', 'low_bits_6','low_bits_4_shifted_2']
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+picture_step = 10
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def generate_data_svd(data_type, mode):
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def generate_data_svd(data_type, mode):
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"""
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"""
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@@ -46,7 +48,7 @@ def generate_data_svd(data_type, mode):
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scenes = [s for s in scenes if min_max_filename not in s]
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scenes = [s for s in scenes if min_max_filename not in s]
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# keep in memory min and max data found from data_type
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# keep in memory min and max data found from data_type
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- min_val_found = 100000000000
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+ min_val_found = sys.maxsize
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max_val_found = 0
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max_val_found = 0
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data_min_max_filename = os.path.join(path, data_type + min_max_filename)
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data_min_max_filename = os.path.join(path, data_type + min_max_filename)
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@@ -95,147 +97,108 @@ def generate_data_svd(data_type, mode):
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while(current_counter_index <= end_counter_index):
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while(current_counter_index <= end_counter_index):
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- current_counter_index_str = str(current_counter_index)
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+ if current_counter_index % picture_step == 0:
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+ current_counter_index_str = str(current_counter_index)
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- while len(start_index_image) > len(current_counter_index_str):
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- current_counter_index_str = "0" + current_counter_index_str
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+ while len(start_index_image) > len(current_counter_index_str):
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+ current_counter_index_str = "0" + current_counter_index_str
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- img_path = os.path.join(scene_path, prefix_image_name + current_counter_index_str + ".png")
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+ img_path = os.path.join(scene_path, prefix_image_name + current_counter_index_str + ".png")
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- current_img = Image.open(img_path)
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- img_blocks = image_processing.divide_in_blocks(current_img, (200, 200))
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+ current_img = Image.open(img_path)
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+ img_blocks = image_processing.divide_in_blocks(current_img, (200, 200))
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- for id_block, block in enumerate(img_blocks):
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+ for id_block, block in enumerate(img_blocks):
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- ###########################
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- # Metric computation part #
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- ###########################
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+ ###########################
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+ # Metric computation part #
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+ ###########################
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- # get data from mode
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- # Here you can add the way you compute data
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- if data_type == 'lab':
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+ data = get_svd_data(data_type, block)
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- block_file_path = '/tmp/lab_img.png'
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- block.save(block_file_path)
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- data = image_processing.get_LAB_L_SVD_s(Image.open(block_file_path))
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+ ##################
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+ # Data mode part #
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+ ##################
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- if data_type == 'mscn_revisited':
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+ # modify data depending mode
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+ if mode == 'svdne':
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- img_mscn_revisited = image_processing.rgb_to_mscn(block)
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+ # getting max and min information from min_max_filename
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+ with open(data_min_max_filename, 'r') as f:
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+ min_val = float(f.readline())
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+ max_val = float(f.readline())
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- # save tmp as img
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- img_output = Image.fromarray(img_mscn_revisited.astype('uint8'), 'L')
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- mscn_revisited_file_path = '/tmp/mscn_revisited_img.png'
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- img_output.save(mscn_revisited_file_path)
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- img_block = Image.open(mscn_revisited_file_path)
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+ data = image_processing.normalize_arr_with_range(data, min_val, max_val)
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- # extract from temp image
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- data = metrics.get_SVD_s(img_block)
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+ if mode == 'svdn':
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+ data = image_processing.normalize_arr(data)
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- if data_type == 'mscn':
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+ # save min and max found from dataset in order to normalize data using whole data known
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+ if mode == 'svd':
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- img_gray = np.array(color.rgb2gray(np.asarray(block))*255, 'uint8')
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- img_mscn = image_processing.calculate_mscn_coefficients(img_gray, 7)
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- img_mscn_norm = image_processing.normalize_2D_arr(img_mscn)
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+ current_min = data.min()
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+ current_max = data.max()
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- img_mscn_gray = np.array(img_mscn_norm*255, 'uint8')
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+ if current_min < min_val_found:
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+ min_val_found = current_min
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- data = metrics.get_SVD_s(img_mscn_gray)
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+ if current_max > max_val_found:
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+ max_val_found = current_max
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- if data_type == 'low_bits_4':
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+ # now write data into current writer
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+ current_file = svd_output_files[id_block]
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- low_bits_4 = image_processing.rgb_to_LAB_L_low_bits(block)
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+ # add of index
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+ current_file.write(current_counter_index_str + ';')
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- # extract from temp image
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- data = metrics.get_SVD_s(low_bits_4)
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+ for val in data:
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+ current_file.write(str(val) + ";")
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- if data_type == 'low_bits_3':
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-
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- low_bits_3 = image_processing.rgb_to_LAB_L_low_bits(block, 7)
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-
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- # extract from temp image
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- data = metrics.get_SVD_s(low_bits_3)
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-
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- if data_type == 'low_bits_2':
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-
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- low_bits_2 = image_processing.rgb_to_LAB_L_low_bits(block, 3)
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-
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- # extract from temp image
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- data = metrics.get_SVD_s(low_bits_2)
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-
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- ##################
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- # Data mode part #
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- ##################
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-
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- # modify data depending mode
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- if mode == 'svdne':
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-
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- # getting max and min information from min_max_filename
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- with open(data_min_max_filename, 'r') as f:
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- min_val = float(f.readline())
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- max_val = float(f.readline())
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-
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- data = image_processing.normalize_arr_with_range(data, min_val, max_val)
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-
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- if mode == 'svdn':
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- data = image_processing.normalize_arr(data)
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-
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- # save min and max found from dataset in order to normalize data using whole data known
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- if mode == 'svd':
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-
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- current_min = data.min()
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- current_max = data.max()
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-
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- if current_min < min_val_found:
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- min_val_found = current_min
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-
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- if current_max > max_val_found:
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- max_val_found = current_max
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-
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- # now write data into current writer
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- current_file = svd_output_files[id_block]
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-
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- # add of index
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- current_file.write(current_counter_index_str + ';')
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-
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- for val in data:
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- current_file.write(str(val) + ";")
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-
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- current_file.write('\n')
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+ current_file.write('\n')
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start_index_image_int = int(start_index_image)
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start_index_image_int = int(start_index_image)
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print(data_type + "_" + mode + "_" + folder_scene + " - " + "{0:.2f}".format((current_counter_index - start_index_image_int) / (end_counter_index - start_index_image_int)* 100.) + "%")
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print(data_type + "_" + mode + "_" + folder_scene + " - " + "{0:.2f}".format((current_counter_index - start_index_image_int) / (end_counter_index - start_index_image_int)* 100.) + "%")
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+ sys.stdout.write("\033[F")
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+
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current_counter_index += step_counter
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current_counter_index += step_counter
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for f in svd_output_files:
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for f in svd_output_files:
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f.close()
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f.close()
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+ print('\n')
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+
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# save current information about min file found
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# save current information about min file found
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if mode == 'svd':
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if mode == 'svd':
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with open(data_min_max_filename, 'w') as f:
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with open(data_min_max_filename, 'w') as f:
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f.write(str(min_val_found) + '\n')
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f.write(str(min_val_found) + '\n')
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f.write(str(max_val_found) + '\n')
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f.write(str(max_val_found) + '\n')
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- print("End of data generation")
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+ print("%s : end of data generation\n" % mode)
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def main():
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def main():
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+ # default value of p_step
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+ p_step = 10
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+
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if len(sys.argv) <= 1:
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if len(sys.argv) <= 1:
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print('Run with default parameters...')
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print('Run with default parameters...')
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print('python generate_all_data.py --metric all')
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print('python generate_all_data.py --metric all')
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print('python generate_all_data.py --metric lab')
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print('python generate_all_data.py --metric lab')
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+ print('python generate_all_data.py --metric lab --step 10')
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sys.exit(2)
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sys.exit(2)
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try:
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try:
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- opts, args = getopt.getopt(sys.argv[1:], "hm", ["help=", "metric="])
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+ opts, args = getopt.getopt(sys.argv[1:], "hms", ["help=", "metric=", "step="])
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except getopt.GetoptError:
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except getopt.GetoptError:
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# print help information and exit:
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# print help information and exit:
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- print('python generate_all_data.py --metric all')
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+ print('python generate_all_data.py --metric all --step 10')
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sys.exit(2)
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sys.exit(2)
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for o, a in opts:
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for o, a in opts:
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if o == "-h":
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if o == "-h":
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- print('python generate_all_data.py --metric all')
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+ print('python generate_all_data.py --metric all --step 10')
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sys.exit()
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sys.exit()
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+ elif o in ("-s", "--step"):
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+ p_step = int(a)
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elif o in ("-m", "--metric"):
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elif o in ("-m", "--metric"):
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p_metric = a
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p_metric = a
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@@ -244,6 +207,12 @@ def main():
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else:
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else:
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assert False, "unhandled option"
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assert False, "unhandled option"
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+ global picture_step
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+ picture_step = p_step
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+
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+ if picture_step % 10 != 0:
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+ assert False, "Picture step variable needs to be divided by ten"
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+
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# generate all or specific metric data
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# generate all or specific metric data
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if p_metric == 'all':
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if p_metric == 'all':
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for m in metric_choices:
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for m in metric_choices:
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