Parcourir la source

Script for specific indices updated

Jérôme BUISINE il y a 3 ans
Parent
commit
91d3253d37

+ 8 - 1
utils/extract_stats_freq_and_min.py

@@ -41,13 +41,20 @@ def main():
             
     
     output_file = open(p_output, 'w')
+    #output_file.write('scene;n_users;min_scene;\n')
 
     for scene in dict_data:
         output_file.write(scene + ';')
         
+        all_thresholds = []
+        n_users = 0
         for extract in dict_data[scene]:
             thresholds_data = dict_data[scene][extract]
-            output_file.write(str(int(np.min(thresholds_data))) + ';')
+            
+            all_thresholds.append(int(np.min(thresholds_data)))
+            n_users = len(thresholds_data)
+
+        output_file.write(str(n_users) + ';' + str(np.min(all_thresholds)) + ';')
 
         output_file.write('\n')
 

+ 222 - 0
utils/get_specific_dataset.py

@@ -0,0 +1,222 @@
+# main imports
+import os, sys
+import argparse
+import json
+import numpy as np
+import shutil
+
+# Rawls images
+from rawls.rawls import Rawls
+
+# others import
+from ipfml import utils
+from scipy.signal import savgol_filter
+
+'''
+Display progress information as progress bar
+'''
+def write_progress(progress):
+    barWidth = 180
+
+    output_str = "["
+    pos = barWidth * progress
+    for i in range(barWidth):
+        if i < pos:
+           output_str = output_str + "="
+        elif i == pos:
+           output_str = output_str + ">"
+        else:
+            output_str = output_str + " "
+
+    output_str = output_str + "] " + str(int(progress * 100.0)) + " %\r"
+    print(output_str)
+    sys.stdout.write("\033[F")
+
+
+def extract_index(filepath):
+
+    return int(filepath.split('-')[-1].split('.')[0])
+
+
+def extracts_linear_indices_rawls(images_path, n_expected=50, i_indices_step=20, o_indices_step=20, start_at=20, smooth_arr=False, gamma=False):
+
+    default_add = start_at - 20
+
+    # by default
+    if i_indices_step == 1:
+        default_add = 0
+
+    n_start_images = int(start_at / i_indices_step)
+    n_counter = 0
+    
+    # extract variance for each image path
+    var_arr = []
+    prev_rawls = None
+
+    n_images = len(images_path)
+
+    for p in sorted(images_path):
+        
+        if prev_rawls is None:
+            temp = Rawls.load(p)
+            
+            if gamma:
+                temp.gammaConvert()
+                
+            prev_rawls = temp
+        else:
+            temp = Rawls.load(p)
+            
+            if gamma:
+                temp.gammaConvert()
+                
+            prev_rawls = Rawls.fusion(prev_rawls, temp)
+        
+        write_progress((n_counter + 1) / n_images)
+
+        n_counter += 1
+        
+        if n_counter >= n_start_images:
+            # only get center variance of image (800 per 800)
+            width, heigth, _ = prev_rawls.shape
+            n_w, n_h = (800, 800) # new expected size
+
+            # get center of image
+            middle_w = int(width / 2)
+            middle_h = int(heigth / 2)
+
+            # start coordinates
+            s_w = middle_w - int(n_w / 2)
+            s_h = middle_h - int(n_h / 2)
+
+            # end coordinates
+            e_w = middle_w + int(n_w / 2)
+            e_h = middle_h + int(n_h / 2)
+
+            var_arr.append(np.var(prev_rawls.data[s_w:e_w, s_h:e_h]))
+        
+    # normalize variance values
+    norm_arr = np.array(utils.normalize_arr_with_range(var_arr))
+    
+    if smooth_arr:
+        norm_arr = utils.normalize_arr_with_range(savgol_filter(norm_arr, 201, 3)) # window size 7, polynomial order 3
+    
+    # get expected linear step (using n_expectec output images)
+    linear_steps = utils.normalize_arr_with_range((1 - (np.arange(n_expected) / n_expected)))
+    
+    # get image indices from variance convergence and linear
+    # => when linear step is reached we store the index found from variance values
+    
+    indices_found = []
+    for i in linear_steps: 
+        find_index = len(linear_steps) - 1
+        for index, y in enumerate(norm_arr):
+            if i <= y:
+                find_index = index
+        indices_found.append(find_index + 1)
+
+    indices = np.array(indices_found) * i_indices_step
+    
+    # add tricks to avoid same indice
+    # => when index is same as previous, then add number of samples expected by step 
+    # Example with step of 20 : [20, 20, 20, 100, 200] => [20, 40, 60, 100, 200]
+    final_indices = []
+    for index, i in enumerate(indices):
+        value = indices[index]
+        if index > 0:
+            if i <= indices[index - 1]:
+                
+                value = indices[index - 1] + o_indices_step
+                indices[index] = value
+
+        final_indices.append(value)
+
+    return np.array(final_indices) + default_add
+
+
+def main():
+    """
+    main function which is ran when launching script
+    """ 
+    parser = argparse.ArgumentParser(description="Compute new dataset scene")
+
+    parser.add_argument('--file', type=str, help='file data extracted from `utils/extract_stats_freq_and_min.py` script', required=True)
+    parser.add_argument('--rawls_folder', type=str, help='rawls dataset folder with scene', required=True)
+    parser.add_argument('--png_folder', type=str, help='png dataset folder with scene', required=True)
+    parser.add_argument('--users', type=int, help='min number of users required per scene', required=True, default=10)
+    parser.add_argument('--samples', type=int, help='expected samples to get for this dataset', required=True, default=10000)
+    parser.add_argument('--output', type=str, help='output images folder', required=True)
+
+    args = parser.parse_args()
+
+    p_file   = args.file
+    p_rawls_folder = args.rawls_folder
+    p_png_folder = args.png_folder
+    p_users  = args.users
+    p_samples = args.samples
+    p_output = args.output
+
+    with open(p_file, 'r') as f:
+
+        for line in f.readlines():
+
+            data = line.split(';')
+
+            scene = data[0]
+            n_users = int(data[1])
+            min_index = int(data[2])
+
+            # remove _partX from scene name
+            scene_name = scene.split('_')[0] + '_' + scene.split('_')[1]
+
+            if n_users >= p_users:
+                print('Extract custom indices based on minimum index for', scene)
+
+                rawls_folder_scene = os.path.join(p_rawls_folder, scene_name)
+                png_folder_scene = os.path.join(p_png_folder, scene)
+
+                if not os.path.exists(rawls_folder_scene):
+                    print(rawls_folder_scene, 'rawls folder does not exist')
+                else:
+                    
+                    # get all rawls files
+                    rawls_files = [ os.path.join(rawls_folder_scene, p) for p in sorted(os.listdir(rawls_folder_scene)) ]
+
+                    # extract step from these files
+                    input_step = p_samples / len(rawls_files)
+
+                    print('Extract indices for', scene)
+
+                    # get indices using min index
+                    indices = extracts_linear_indices_rawls(rawls_files, n_expected=50, i_indices_step=input_step, o_indices_step=20, start_at=min_index, smooth_arr=True, gamma=True)
+
+                    print('Indices found are', indices)
+                    # create output directory
+                    output_scene_dir = os.path.join(p_output, scene)
+
+                    if not os.path.exists(output_scene_dir):
+                        os.makedirs(output_scene_dir)
+
+                    # get expected png image and move it
+                    for index in indices:
+
+                        str_index = str(index)
+
+                        while len(str_index) < 5:
+                            str_index = "0" + str_index
+
+                        image_name = scene + '_' + str_index + '.png'
+                        png_image_path = os.path.join(png_folder_scene, image_name)
+
+                        # create output filepath
+                        output_img_filepath = os.path.join(output_scene_dir, image_name)
+
+                        # copy expected image path
+                        shutil.copy2(png_image_path, output_img_filepath)
+            else:
+                print('Only', n_users, 'users who passed the experiment for', scene)
+    
+
+
+if __name__ == "__main__":
+    main()

+ 192 - 0
utils/get_specific_dataset_png.py

@@ -0,0 +1,192 @@
+# main imports
+import os, sys
+import argparse
+import json
+import numpy as np
+import shutil
+
+# PNG images
+from PIL import Image
+
+# others import
+from ipfml import utils
+from scipy.signal import savgol_filter
+
+'''
+Display progress information as progress bar
+'''
+def write_progress(progress):
+    barWidth = 180
+
+    output_str = "["
+    pos = barWidth * progress
+    for i in range(barWidth):
+        if i < pos:
+           output_str = output_str + "="
+        elif i == pos:
+           output_str = output_str + ">"
+        else:
+            output_str = output_str + " "
+
+    output_str = output_str + "] " + str(int(progress * 100.0)) + " %\r"
+    print(output_str)
+    sys.stdout.write("\033[F")
+
+
+def extract_index(filepath):
+
+    return int(filepath.split('_')[-1].split('.')[0])
+
+
+def extracts_linear_indices(images_path, n_expected=50, indices_step=20, start_at=20, smooth_arr=False):
+
+    # TODO : check this part
+    default_add = start_at - indices_step
+    
+    # extract variance for each image path
+    var_arr = []
+
+    n_counter = 0
+    n_images = len(images_path)
+
+    for p in sorted(images_path):
+        img = Image.open(p)
+        var_arr.append(np.var(img))
+
+        n_counter += 1
+        write_progress((n_counter + 1) / n_images)
+        
+    # normalize variance values
+    norm_arr = np.array(utils.normalize_arr_with_range(var_arr))
+    
+    if smooth_arr:
+        norm_arr = utils.normalize_arr_with_range(savgol_filter(norm_arr, 201, 3)) # window size 7, polynomial order 3
+    
+    # get expected linear step (using n_expectec output images)
+    linear_steps = utils.normalize_arr_with_range((1 - (np.arange(n_expected) / n_expected)))
+    
+    # get image indices from variance convergence and linear
+    # => when linear step is reached we store the index found from variance values
+    indices_found = []
+    for i in linear_steps: 
+        
+        find_index = 0
+        
+        for index, y in enumerate(norm_arr):
+            if i <= y:
+                find_index = index
+
+        indices_found.append(find_index + 1)
+
+    indices = np.array(indices_found) * indices_step
+    
+    # add tricks to avoid same indice
+    # => when index is same as previous, then add number of samples expected by step 
+    # Example with step of 20 : [20, 20, 20, 100, 200] => [20, 40, 60, 100, 200]
+    final_indices = []
+    for index, i in enumerate(indices):
+        value = indices[index]
+        if index > 0:
+            if i <= indices[index - 1]:
+                value = indices[index - 1] + indices_step
+                indices[index] = value
+
+        final_indices.append(value)
+        
+    return np.array(final_indices) + default_add
+
+
+def main():
+    """
+    main function which is ran when launching script
+    """ 
+    parser = argparse.ArgumentParser(description="Compute new dataset scene")
+
+    parser.add_argument('--file', type=str, help='file data extracted from `utils/extract_stats_freq_and_min.py` script', required=True)
+    parser.add_argument('--png_folder', type=str, help='png dataset folder with scene', required=True)
+    parser.add_argument('--users', type=int, help='min number of users required per scene', required=True, default=10)
+    #parser.add_argument('--samples', type=int, help='expected samples to get for this dataset', required=True, default=10000)
+    parser.add_argument('--output', type=str, help='output image folder', required=True)
+
+    args = parser.parse_args()
+
+    p_file   = args.file
+    p_png_folder = args.png_folder
+    p_users  = args.users
+    #p_samples = args.samples
+    p_output = args.output
+
+    with open(p_file, 'r') as f:
+
+        for line in f.readlines():
+
+            data = line.split(';')
+
+            scene = data[0]
+            n_users = int(data[1])
+            min_index = int(data[2])
+
+            # remove _partX from scene name
+            scene_parts = scene.split('_')
+            del scene_parts[-1]
+            scene_name = '_'.join(scene_parts)
+
+            output_scene_dir = os.path.join(p_output, scene)
+
+            if os.path.exists(output_scene_dir):
+                print('Extraction of custom indices already done for', scene)
+                continue
+
+            if n_users >= p_users:
+                print('Extract custom indices based on minimum index for', scene)
+
+                png_folder_scene = os.path.join(p_png_folder, scene)
+
+                if not os.path.exists(png_folder_scene):
+                    print(png_folder_scene, 'png folder does not exist')
+                else:
+                    
+                    # get all rawls files
+                    png_files = [ os.path.join(png_folder_scene, p) for p in sorted(os.listdir(png_folder_scene)) ]
+
+                    # extract max samples found for this scene
+                    _, filename = os.path.split(png_files[-1])
+
+                    max_samples = extract_index(filename)
+
+                    # extract step from these files
+                    input_step = int(max_samples / len(png_files))
+
+                    # get indices using min index
+                    indices = extracts_linear_indices(png_files[int(min_index / input_step):], n_expected=50, indices_step=input_step, start_at=min_index, smooth_arr=True)
+
+                    # print('Indices found are', indices)
+                    # create output directory
+                    if not os.path.exists(output_scene_dir):
+                        os.makedirs(output_scene_dir)
+
+                    # get expected png image and move it
+                    for index in indices:
+                        
+                        str_index = str(index)
+
+                        while len(str_index) < 5:
+                            str_index = "0" + str_index
+
+                        image_name = scene_name + '_' + str_index + '.png'
+                        png_image_path = os.path.join(png_folder_scene, image_name)
+
+                        # create output filepath
+                        output_img_filepath = os.path.join(output_scene_dir, image_name)
+
+                        # copy expected image path
+                        shutil.copy2(png_image_path, output_img_filepath)
+            else:
+                print('Only', n_users, 'users who passed the experiment for', scene)
+            
+            print('\n---------------------------------------------')
+    
+
+
+if __name__ == "__main__":
+    main()