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- # main imports
- import sys, os, argparse
- import numpy as np
- import pandas as pd
- import random
- # image processing imports
- from PIL import Image
- from ipfml import utils
- # modules imports
- sys.path.insert(0, '') # trick to enable import of main folder module
- import custom_config as cfg
- from modules.utils import data as dt
- from data_attributes import get_image_features
- # getting configuration information
- learned_folder = cfg.learned_zones_folder
- min_max_filename = cfg.min_max_filename_extension
- # define all scenes variables
- all_scenes_list = cfg.scenes_names
- all_scenes_indices = cfg.scenes_indices
- normalization_choices = cfg.normalization_choices
- zones = cfg.zones_indices
- seuil_expe_filename = cfg.seuil_expe_filename
- renderer_choices = cfg.renderer_choices
- features_choices = cfg.features_choices_labels
- output_data_folder = cfg.output_data_folder
- custom_min_max_folder = cfg.min_max_custom_folder
- min_max_ext = cfg.min_max_filename_extension
- generic_output_file_svd = '_random.csv'
- min_value_interval = sys.maxsize
- max_value_interval = 0
- def construct_new_line(interval, line_data, choice, each, norm):
- begin, end = interval
- label = line_data[2]
- features = line_data[begin+3:end+3]
-
- # keep only if modulo result is 0 (keep only each wanted values)
- features = [float(m) for id, m in enumerate(features) if id % each == 0]
- # TODO : check if it's always necessary to do that (loss of information for svd)
- if norm:
- if choice == 'svdne':
- features = utils.normalize_arr_with_range(features, min_value_interval, max_value_interval)
- if choice == 'svdn':
- features = utils.normalize_arr(features)
- line = label
- for val in features:
- line += ';'
- line += str(val)
- line += '\n'
- return line
- def get_min_max_value_interval(_path, _scenes_list, _interval, _feature):
- global min_value_interval, max_value_interval
- data_filename = _feature + "_svd" + generic_output_file_svd
- data_file_path = os.path.join(_path, data_filename)
- # getting number of line and read randomly lines
- f = open(data_file_path)
- lines = f.readlines()
- # check if user select current scene and zone to be part of training data set
- for line in lines:
- begin, end = _interval
- line_data = line.split(';')
- features = line_data[begin+3:end+3]
- features = [float(m) for m in features]
- min_value = min(features)
- max_value = max(features)
- if min_value < min_value_interval:
- min_value_interval = min_value
- if max_value > max_value_interval:
- max_value_interval = max_value
- def generate_data_model(_path, _scenes_list, _filename, _interval, _choice, _feature, _scenes, _nb_zones = 4, _percent = 1, _random=0, _step=1, _each=1, _custom = False):
- output_train_filename = _filename + ".train"
- output_test_filename = _filename + ".test"
- if not '/' in output_train_filename:
- raise Exception("Please select filename with directory path to save data. Example : data/dataset")
- # create path if not exists
- if not os.path.exists(output_data_folder):
- os.makedirs(output_data_folder)
- train_file_data = []
- test_file_data = []
- # if custom normalization choices then we use svd values not already normalized
- if _custom:
- data_filename = _feature + "_svd"+ generic_output_file_svd
- else:
- data_filename = _feature + "_" + _choice + generic_output_file_svd
- data_file_path = os.path.join(_path, data_filename)
- # getting number of line and read randomly lines
- f = open(data_file_path)
- lines = f.readlines()
- num_lines = len(lines)
- # randomly shuffle image
- if _random:
- random.shuffle(lines)
- counter = 0
- # check if user select current scene data line of training data set
- for data in lines:
- percent = counter / num_lines
- data = data.split(';')
- scene_name = data[0]
- image_index = int(data[1])
- if image_index % _step == 0:
- line = construct_new_line(_interval, data, _choice, int(_each), _custom)
- if scene_name in _scenes and percent <= _percent:
- train_file_data.append(line)
- else:
- test_file_data.append(line)
- counter += 1
- f.close()
- train_file = open(output_train_filename, 'w')
- test_file = open(output_test_filename, 'w')
- for line in train_file_data:
- train_file.write(line)
- for line in test_file_data:
- test_file.write(line)
- train_file.close()
- test_file.close()
- def main():
- # getting all params
- parser = argparse.ArgumentParser(description="Generate data for model using correlation matrix information from data")
- parser.add_argument('--output', type=str, help='output file name desired (.train and .test)')
- parser.add_argument('--folder', type=str, help='folder path of data augmented database')
- parser.add_argument('--interval', type=str, help='Interval value to keep from svd', default='"0, 200"')
- parser.add_argument('--kind', type=str, help='Kind of normalization level wished', choices=normalization_choices)
- parser.add_argument('--feature', type=str, help='feature data choice', choices=features_choices)
- parser.add_argument('--scenes', type=str, help='List of scenes to use for training data')
- parser.add_argument('--random', type=int, help='Data will be randomly filled or not', choices=[0, 1])
- parser.add_argument('--percent', type=float, help='Percent of data use for train and test dataset (by default 1)')
- parser.add_argument('--step', type=int, help='Photo step to keep for build datasets', default=1)
- parser.add_argument('--each', type=int, help='Each features to keep from interval', default=1)
- parser.add_argument('--renderer', type=str, help='Renderer choice in order to limit scenes used', choices=renderer_choices, default='all')
- parser.add_argument('--custom', type=str, help='Name of custom min max file if use of renormalization of data', default=False)
- args = parser.parse_args()
- p_filename = args.output
- p_folder = args.folder
- p_interval = list(map(int, args.interval.split(',')))
- p_kind = args.kind
- p_feature = args.feature
- p_scenes = args.scenes.split(',')
- p_random = args.random
- p_percent = args.percent
- p_step = args.step
- p_each = args.each
- p_renderer = args.renderer
- p_custom = args.custom
- # list all possibles choices of renderer
- scenes_list = dt.get_renderer_scenes_names(p_renderer)
- scenes_indices = dt.get_renderer_scenes_indices(p_renderer)
- # getting scenes from indexes user selection
- scenes_selected = []
- for scene_id in p_scenes:
- index = scenes_indices.index(scene_id.strip())
- scenes_selected.append(scenes_list[index])
- # find min max value if necessary to renormalize data
- if p_custom:
- get_min_max_value_interval(p_folder, scenes_list, p_interval, p_feature)
- # write new file to save
- if not os.path.exists(custom_min_max_folder):
- os.makedirs(custom_min_max_folder)
- min_max_filename_path = os.path.join(custom_min_max_folder, p_custom)
- with open(min_max_filename_path, 'w') as f:
- f.write(str(min_value_interval) + '\n')
- f.write(str(max_value_interval) + '\n')
- # create database using img folder (generate first time only)
- generate_data_model(p_folder, scenes_list, p_filename, p_interval, p_kind, p_feature, scenes_selected, p_percent, p_random, p_step, p_each, p_custom)
- if __name__== "__main__":
- main()
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