import os, yaml, datetime, argparse, re, cv2, random, shutil, tiktoken, json, csv import streamlit as st from collections import Counter import pandas as pd from pathlib import Path from dataclasses import dataclass from tqdm import tqdm import numpy as np import concurrent.futures from time import perf_counter import torch from vouchervision.model_maps import ModelMaps ''' TIFF --> DNG Install https://helpx.adobe.com/camera-raw/using/adobe-dng-converter.html Read https://helpx.adobe.com/content/dam/help/en/photoshop/pdf/dng_commandline.pdf ''' # https://stackoverflow.com/questions/287871/how-do-i-print-colored-text-to-the-terminal def validate_dir(dir): if not os.path.exists(dir): os.makedirs(dir, exist_ok=True) def get_cfg_from_full_path(path_cfg): with open(path_cfg, "r") as ymlfile: cfg = yaml.full_load(ymlfile) return cfg def num_tokens_from_string(string, encoding_name): try: # Ensure the encoding is obtained correctly. encoding = tiktoken.get_encoding(encoding_name) # Convert dictionary to string if it is not already a string if isinstance(string, dict): string = json.dumps(string, ensure_ascii=False) # Encode the string and return the number of tokens. num_tokens = len(encoding.encode(string)) except Exception as e: # If there's any error, log it and return 0. print(f"An error occurred: {e}") num_tokens = 0 return num_tokens def add_to_expense_report(dir_home, data): path_expense_report = os.path.join(dir_home, 'expense_report','expense_report.csv') # Check if the file exists file_exists = os.path.isfile(path_expense_report) # Open the file in append mode if it exists, or write mode if it doesn't mode = 'a' if file_exists else 'w' with open(path_expense_report, mode=mode, newline='') as file: writer = csv.writer(file) # If the file does not exist, write the header first if not file_exists: writer.writerow(['run','date','api_version','total_cost', 'n_images', 'tokens_in', 'tokens_out', 'rate_in', 'rate_out', 'cost_in', 'cost_out',]) # Write the data row writer.writerow(data) def save_token_info_as_csv(Dirs, LLM_version0, path_api_cost, total_tokens_in, total_tokens_out, n_images, dir_home, logger): if path_api_cost: LLM_version = ModelMaps.get_version_mapping_cost(LLM_version0) # Define the CSV file path csv_file_path = os.path.join(Dirs.path_cost, Dirs.run_name + '.csv') cost_in, cost_out, total_cost, rate_in, rate_out = calculate_cost(LLM_version, path_api_cost, total_tokens_in, total_tokens_out) # The data to be written to the CSV file data = [Dirs.run_name, get_datetime(),LLM_version, total_cost, n_images, total_tokens_in, total_tokens_out, rate_in, rate_out, cost_in, cost_out,] # Open the file in write mode with open(csv_file_path, mode='w', newline='') as file: writer = csv.writer(file) # Write the header writer.writerow(['run','date','api_version','total_cost', 'n_images', 'tokens_in', 'tokens_out', 'rate_in', 'rate_out', 'cost_in', 'cost_out',]) # Write the data writer.writerow(data) # Create a summary string cost_summary = (f"Cost Summary for {Dirs.run_name}:\n" f" API Cost In: ${rate_in} per 1000 Tokens\n" f" API Cost Out: ${rate_out} per 1000 Tokens\n" f" Tokens In: {total_tokens_in} - Cost: ${cost_in:.4f}\n" f" Tokens Out: {total_tokens_out} - Cost: ${cost_out:.4f}\n" f" Images Processed: {n_images}\n" f" Total Cost: ${total_cost:.4f}") add_to_expense_report(dir_home, data) logger.info(cost_summary) return total_cost else: return None #TODO add config tests to expense_report @st.cache_data def summarize_expense_report(path_expense_report): # Initialize counters and sums run_count = 0 total_cost_sum = 0 tokens_in_sum = 0 tokens_out_sum = 0 rate_in_sum = 0 rate_out_sum = 0 cost_in_sum = 0 cost_out_sum = 0 n_images_sum = 0 api_version_counts = Counter() # Try to read the CSV file into a DataFrame try: df = pd.read_csv(path_expense_report) # Process each row in the DataFrame for index, row in df.iterrows(): run_count += 1 total_cost_sum += row['total_cost'] tokens_in_sum += row['tokens_in'] tokens_out_sum += row['tokens_out'] rate_in_sum += row['rate_in'] rate_out_sum += row['rate_out'] cost_in_sum += row['cost_in'] cost_out_sum += row['cost_out'] n_images_sum += row['n_images'] api_version_counts[row['api_version']] += 1 except FileNotFoundError: print(f"The file {path_expense_report} does not exist.") return None # Calculate API version percentages api_version_percentages = {version: (count / run_count) * 100 for version, count in api_version_counts.items()} # Calculate cost per image for each API version cost_per_image_dict = {} for version, count in api_version_counts.items(): total_cost = df[df['api_version'] == version]['total_cost'].sum() n_images = df[df['api_version'] == version]['n_images'].sum() cost_per_image = total_cost / n_images if n_images > 0 else 0 cost_per_image_dict[version] = cost_per_image # Return the DataFrame and all summaries return { 'run_count': run_count, 'total_cost_sum': total_cost_sum, 'tokens_in_sum': tokens_in_sum, 'tokens_out_sum': tokens_out_sum, 'rate_in_sum': rate_in_sum, 'rate_out_sum': rate_out_sum, 'cost_in_sum': cost_in_sum, 'cost_out_sum': cost_out_sum, 'n_images_sum':n_images_sum, 'api_version_percentages': api_version_percentages, 'cost_per_image': cost_per_image_dict }, df def calculate_cost(LLM_version, path_api_cost, total_tokens_in, total_tokens_out): # Load the rates from the YAML file with open(path_api_cost, 'r') as file: cost_data = yaml.safe_load(file) # Get the rates for the specified LLM version if LLM_version in cost_data: rates = cost_data[LLM_version] cost_in = rates['in'] * (total_tokens_in/1000) cost_out = rates['out'] * (total_tokens_out/1000) total_cost = cost_in + cost_out else: raise ValueError(f"LLM version {LLM_version} not found in the cost data") return cost_in, cost_out, total_cost, rates['in'], rates['out'] def create_google_ocr_yaml_config(output_file, dir_images_local, dir_output): # Define the configuration dictionary config = { 'leafmachine': { 'LLM_version': 'PaLM 2', 'archival_component_detector': { 'detector_iteration': 'PREP_final', 'detector_type': 'Archival_Detector', 'detector_version': 'PREP_final', 'detector_weights': 'best.pt', 'do_save_prediction_overlay_images': True, 'ignore_objects_for_overlay': [], 'minimum_confidence_threshold': 0.5 }, 'cropped_components': { 'binarize_labels': False, 'binarize_labels_skeletonize': False, 'do_save_cropped_annotations': True, 'save_cropped_annotations': ['label', 'barcode'], 'save_per_annotation_class': True, 'save_per_image': False }, 'data': { 'do_apply_conversion_factor': False, 'include_darwin_core_data_from_combined_file': False, 'save_individual_csv_files_landmarks': False, 'save_individual_csv_files_measurements': False, 'save_individual_csv_files_rulers': False, 'save_individual_efd_files': False, 'save_json_measurements': False, 'save_json_rulers': False }, 'do': { 'check_for_corrupt_images_make_vertical': True, 'check_for_illegal_filenames': False }, 'logging': { 'log_level': None }, 'modules': { 'specimen_crop': True }, 'overlay': { 'alpha_transparency_archival': 0.3, 'alpha_transparency_plant': 0, 'alpha_transparency_seg_partial_leaf': 0.3, 'alpha_transparency_seg_whole_leaf': 0.4, 'ignore_archival_detections_classes': [], 'ignore_landmark_classes': [], 'ignore_plant_detections_classes': ['leaf_whole', 'specimen'], 'line_width_archival': 12, 'line_width_efd': 12, 'line_width_plant': 12, 'line_width_seg': 12, 'overlay_background_color': 'black', 'overlay_dpi': 300, 'save_overlay_to_jpgs': True, 'save_overlay_to_pdf': False, 'show_archival_detections': True, 'show_landmarks': True, 'show_plant_detections': True, 'show_segmentations': True }, 'print': { 'optional_warnings': True, 'verbose': True }, 'project': { 'batch_size': 500, 'build_new_embeddings_database': False, 'catalog_numerical_only': False, 'continue_run_from_partial_xlsx': '', 'delete_all_temps': False, 'delete_temps_keep_VVE': False, 'dir_images_local': dir_images_local, 'dir_output': dir_output, 'embeddings_database_name': 'SLTP_UM_AllAsiaMinimalInRegion', 'image_location': 'local', 'num_workers': 1, 'path_to_domain_knowledge_xlsx': '', 'prefix_removal': '', 'prompt_version': 'Version 2 PaLM 2', 'run_name': 'google_vision_ocr_test', 'suffix_removal': '', 'use_domain_knowledge': False }, 'use_RGB_label_images': False } } # Generate the YAML string from the data structure validate_dir(os.path.dirname(output_file)) yaml_str = yaml.dump(config, sort_keys=False) # Write the YAML string to a file with open(output_file, 'w') as file: file.write(yaml_str) def test_GPU(): info = [] success = False if torch.cuda.is_available(): num_gpus = torch.cuda.device_count() info.append(f"Number of GPUs: {num_gpus}") for i in range(num_gpus): gpu = torch.cuda.get_device_properties(i) info.append(f"GPU {i}: {gpu.name}") success = True else: info.append("No GPU found!") info.append("LeafMachine2 collages will run slowly, trOCR may not be available.") return success, info # def load_cfg(pathToCfg): # try: # with open(os.path.join(pathToCfg,"LeafMachine2.yaml"), "r") as ymlfile: # cfg = yaml.full_load(ymlfile) # except: # with open(os.path.join(os.path.dirname(os.path.dirname(pathToCfg)),"LeafMachine2.yaml"), "r") as ymlfile: # cfg = yaml.full_load(ymlfile) # return cfg # def load_cfg_VV(pathToCfg): # try: # with open(os.path.join(pathToCfg,"VoucherVision.yaml"), "r") as ymlfile: # cfg = yaml.full_load(ymlfile) # except: # with open(os.path.join(os.path.dirname(os.path.dirname(pathToCfg)),"VoucherVision.yaml"), "r") as ymlfile: # cfg = yaml.full_load(ymlfile) # return cfg def load_cfg(pathToCfg, system='LeafMachine2'): if system not in ['LeafMachine2', 'VoucherVision', 'SpecimenCrop']: raise ValueError("Invalid system. Expected 'LeafMachine2', 'VoucherVision' or 'SpecimenCrop'.") try: with open(os.path.join(pathToCfg, f"{system}.yaml"), "r") as ymlfile: cfg = yaml.full_load(ymlfile) except: with open(os.path.join(os.path.dirname(os.path.dirname(pathToCfg)), f"{system}.yaml"), "r") as ymlfile: cfg = yaml.full_load(ymlfile) return cfg def import_csv(full_path): csv_data = pd.read_csv(full_path,sep=',',header=0, low_memory=False, dtype=str) return csv_data def import_tsv(full_path): csv_data = pd.read_csv(full_path,sep='\t',header=0, low_memory=False, dtype=str) return csv_data def parse_cfg(): parser = argparse.ArgumentParser( description='Parse inputs to read config file', formatter_class=argparse.ArgumentDefaultsHelpFormatter) optional_args = parser._action_groups.pop() required_args = parser.add_argument_group('MANDATORY arguments') required_args.add_argument('--path-to-cfg', type=str, required=True, help='Path to config file - LeafMachine.yaml. Do not include the file name, just the parent dir.') parser._action_groups.append(optional_args) args = parser.parse_args() return args def check_for_subdirs(cfg): original_in = cfg['leafmachine']['project']['dir_images_local'] dirs_list = [] run_name = [] has_subdirs = False if os.path.isdir(original_in): # list contents of the directory contents = os.listdir(original_in) # check if any of the contents is a directory subdirs = [f for f in contents if os.path.isdir(os.path.join(original_in, f))] if len(subdirs) > 0: print("The directory contains subdirectories:") for subdir in subdirs: has_subdirs = True print(os.path.join(original_in, subdir)) dirs_list.append(os.path.join(original_in, subdir)) run_name.append(subdir) else: print("The directory does not contain any subdirectories.") dirs_list.append(original_in) run_name.append(cfg['leafmachine']['project']['run_name']) else: print("The specified path is not a directory.") return run_name, dirs_list, has_subdirs def check_for_subdirs_VV(cfg): original_in = cfg['leafmachine']['project']['dir_images_local'] dirs_list = [] run_name = [] has_subdirs = False if os.path.isdir(original_in): dirs_list.append(original_in) run_name.append(os.path.basename(os.path.normpath(original_in))) # list contents of the directory contents = os.listdir(original_in) # check if any of the contents is a directory subdirs = [f for f in contents if os.path.isdir(os.path.join(original_in, f))] if len(subdirs) > 0: print("The directory contains subdirectories:") for subdir in subdirs: has_subdirs = True print(os.path.join(original_in, subdir)) dirs_list.append(os.path.join(original_in, subdir)) run_name.append(subdir) else: print("The directory does not contain any subdirectories.") dirs_list.append(original_in) run_name.append(cfg['leafmachine']['project']['run_name']) else: print("The specified path is not a directory.") return run_name, dirs_list, has_subdirs def get_datetime(): day = "_".join([str(datetime.datetime.now().strftime("%Y")),str(datetime.datetime.now().strftime("%m")),str(datetime.datetime.now().strftime("%d"))]) time = "-".join([str(datetime.datetime.now().strftime("%H")),str(datetime.datetime.now().strftime("%M")),str(datetime.datetime.now().strftime("%S"))]) new_time = "__".join([day,time]) return new_time def save_config_file(cfg, logger, Dirs): logger.info("Save config file") name_yaml = ''.join([Dirs.run_name,'.yaml']) write_yaml(cfg, os.path.join(Dirs.path_config_file, name_yaml)) def write_yaml(cfg, path_cfg): with open(path_cfg, 'w') as file: yaml.dump(cfg, file, sort_keys=False) def split_into_batches(Project, logger, cfg): logger.name = 'Creating Batches' n_batches, n_images = Project.process_in_batches(cfg) m = f'Created {n_batches} Batches to Process {n_images} Images' logger.info(m) return Project, n_batches, m def make_images_in_dir_vertical(dir_images_unprocessed, cfg): skip_vertical = cfg['leafmachine']['do']['skip_vertical'] if cfg['leafmachine']['do']['check_for_corrupt_images_make_vertical']: n_rotate = 0 n_corrupt = 0 n_total = len(os.listdir(dir_images_unprocessed)) for image_name_jpg in tqdm(os.listdir(dir_images_unprocessed), desc=f'{bcolors.BOLD} Checking Image Dimensions{bcolors.ENDC}',colour="cyan",position=0,total = n_total): if image_name_jpg.endswith((".jpg",".JPG",".jpeg",".JPEG")): try: image = cv2.imread(os.path.join(dir_images_unprocessed, image_name_jpg)) if not skip_vertical: h, w, img_c = image.shape image, img_h, img_w, did_rotate = make_image_vertical(image, h, w, do_rotate_180=False) if did_rotate: n_rotate += 1 cv2.imwrite(os.path.join(dir_images_unprocessed,image_name_jpg), image) except: n_corrupt +=1 os.remove(os.path.join(dir_images_unprocessed, image_name_jpg)) # TODO check that below works as intended elif image_name_jpg.endswith((".tiff",".tif",".png",".PNG",".TIFF",".TIF",".jp2",".JP2",".bmp",".BMP",".dib",".DIB")): try: image = cv2.imread(os.path.join(dir_images_unprocessed, image_name_jpg)) if not skip_vertical: h, w, img_c = image.shape image, img_h, img_w, did_rotate = make_image_vertical(image, h, w, do_rotate_180=False) if did_rotate: n_rotate += 1 image_name_jpg = '.'.join([image_name_jpg.split('.')[0], 'jpg']) cv2.imwrite(os.path.join(dir_images_unprocessed,image_name_jpg), image) except: n_corrupt +=1 os.remove(os.path.join(dir_images_unprocessed, image_name_jpg)) m = ''.join(['Number of Images Rotated: ', str(n_rotate)]) Print_Verbose(cfg, 2, m).bold() m2 = ''.join(['Number of Images Corrupted: ', str(n_corrupt)]) if n_corrupt > 0: Print_Verbose(cfg, 2, m2).warning else: Print_Verbose(cfg, 2, m2).bold def make_image_vertical(image, h, w, do_rotate_180): did_rotate = False if do_rotate_180: # try: image = cv2.rotate(image, cv2.ROTATE_180) img_h, img_w, img_c = image.shape did_rotate = True # print(" Rotated 180") else: if h < w: # try: image = cv2.rotate(image, cv2.ROTATE_90_CLOCKWISE) img_h, img_w, img_c = image.shape did_rotate = True # print(" Rotated 90 CW") elif h >= w: image = image img_h = h img_w = w # print(" Not Rotated") return image, img_h, img_w, did_rotate def make_image_horizontal(image, h, w, do_rotate_180): if h > w: if do_rotate_180: image = cv2.rotate(image, cv2.ROTATE_180) return cv2.rotate(image, cv2.ROTATE_90_COUNTERCLOCKWISE), w, h, True return image, w, h, False def make_images_in_dir_horizontal(dir_images_unprocessed, cfg): # if cfg['leafmachine']['do']['check_for_corrupt_images_make_horizontal']: n_rotate = 0 n_corrupt = 0 n_total = len(os.listdir(dir_images_unprocessed)) for image_name_jpg in tqdm(os.listdir(dir_images_unprocessed), desc=f'{bcolors.BOLD} Checking Image Dimensions{bcolors.ENDC}', colour="cyan", position=0, total=n_total): if image_name_jpg.endswith((".jpg",".JPG",".jpeg",".JPEG")): try: image = cv2.imread(os.path.join(dir_images_unprocessed, image_name_jpg)) h, w, img_c = image.shape image, img_h, img_w, did_rotate = make_image_horizontal(image, h, w, do_rotate_180=False) if did_rotate: n_rotate += 1 cv2.imwrite(os.path.join(dir_images_unprocessed,image_name_jpg), image) except: n_corrupt +=1 os.remove(os.path.join(dir_images_unprocessed, image_name_jpg)) # TODO check that below works as intended elif image_name_jpg.endswith((".tiff",".tif",".png",".PNG",".TIFF",".TIF",".jp2",".JP2",".bmp",".BMP",".dib",".DIB")): try: image = cv2.imread(os.path.join(dir_images_unprocessed, image_name_jpg)) h, w, img_c = image.shape image, img_h, img_w, did_rotate = make_image_horizontal(image, h, w, do_rotate_180=False) if did_rotate: n_rotate += 1 image_name_jpg = '.'.join([image_name_jpg.split('.')[0], 'jpg']) cv2.imwrite(os.path.join(dir_images_unprocessed,image_name_jpg), image) except: n_corrupt +=1 os.remove(os.path.join(dir_images_unprocessed, image_name_jpg)) m = ''.join(['Number of Images Rotated: ', str(n_rotate)]) print(m) # Print_Verbose(cfg, 2, m).bold() m2 = ''.join(['Number of Images Corrupted: ', str(n_corrupt)]) print(m2) @dataclass class Print_Verbose_Error(): cfg: str = '' indent_level: int = 0 message: str = '' error: str = '' def __init__(self, cfg,indent_level,message,error) -> None: self.cfg = cfg self.indent_level = indent_level self.message = message self.error = error def print_error_to_console(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['optional_warnings']: print(f"{bcolors.FAIL}{white_space}{self.message} ERROR: {self.error}{bcolors.ENDC}") def print_warning_to_console(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['optional_warnings']: print(f"{bcolors.WARNING}{white_space}{self.message} ERROR: {self.error}{bcolors.ENDC}") @dataclass class Print_Verbose(): cfg: str = '' indent_level: int = 0 message: str = '' def __init__(self, cfg, indent_level, message) -> None: self.cfg = cfg self.indent_level = indent_level self.message = message def bold(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{bcolors.BOLD}{white_space}{self.message}{bcolors.ENDC}") def green(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{bcolors.OKGREEN}{white_space}{self.message}{bcolors.ENDC}") def cyan(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{bcolors.OKCYAN}{white_space}{self.message}{bcolors.ENDC}") def blue(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{bcolors.OKBLUE}{white_space}{self.message}{bcolors.ENDC}") def warning(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{bcolors.WARNING}{white_space}{self.message}{bcolors.ENDC}") def plain(self): white_space = " " * 5 * self.indent_level if self.cfg['leafmachine']['print']['verbose']: print(f"{white_space}{self.message}") def print_main_start(message): indent_level = 1 white_space = " " * 5 * indent_level end = " " * int(80 - len(message) - len(white_space)) # end_white_space = " " * end blank = " " * 80 print(f"{bcolors.CBLUEBG2}{blank}{bcolors.ENDC}") print(f"{bcolors.CBLUEBG2}{white_space}{message}{end}{bcolors.ENDC}") print(f"{bcolors.CBLUEBG2}{blank}{bcolors.ENDC}") def print_main_success(message): indent_level = 1 white_space = " " * 5 * indent_level end = " " * int(80 - len(message) - len(white_space)) blank = " " * 80 # end_white_space = " " * end print(f"{bcolors.CGREENBG2}{blank}{bcolors.ENDC}") print(f"{bcolors.CGREENBG2}{white_space}{message}{end}{bcolors.ENDC}") print(f"{bcolors.CGREENBG2}{blank}{bcolors.ENDC}") def print_main_warn(message): indent_level = 1 white_space = " " * 5 * indent_level end = " " * int(80 - len(message) - len(white_space)) # end_white_space = " " * end blank = " " * 80 print(f"{bcolors.CYELLOWBG2}{blank}{bcolors.ENDC}") print(f"{bcolors.CYELLOWBG2}{white_space}{message}{end}{bcolors.ENDC}") print(f"{bcolors.CYELLOWBG2}{blank}{bcolors.ENDC}") def print_main_fail(message): indent_level = 1 white_space = " " * 5 * indent_level end = " " * int(80 - len(message) - len(white_space)) # end_white_space = " " * end blank = " " * 80 print(f"{bcolors.CREDBG2}{blank}{bcolors.ENDC}") print(f"{bcolors.CREDBG2}{white_space}{message}{end}{bcolors.ENDC}") print(f"{bcolors.CREDBG2}{blank}{bcolors.ENDC}") def print_main_info(message): indent_level = 2 white_space = " " * 5 * indent_level end = " " * int(80 - len(message) - len(white_space)) # end_white_space = " " * end print(f"{bcolors.CGREYBG}{white_space}{message}{end}{bcolors.ENDC}") # def report_config(dir_home, cfg_file_path): # print_main_start("Loading Configuration File") # if cfg_file_path == None: # print_main_info(''.join([os.path.join(dir_home, 'LeafMachine2.yaml')])) # elif cfg_file_path == 'test_installation': # print_main_info(''.join([os.path.join(dir_home, 'demo','LeafMachine2_demo.yaml')])) # else: # print_main_info(cfg_file_path) # def report_config_VV(dir_home, cfg_file_path): # print_main_start("Loading Configuration File") # if cfg_file_path == None: # print_main_info(''.join([os.path.join(dir_home, 'VoucherVision.yaml')])) # elif cfg_file_path == 'test_installation': # print_main_info(''.join([os.path.join(dir_home, 'demo','VoucherVision_demo.yaml')])) # else: # print_main_info(cfg_file_path) def report_config(dir_home, cfg_file_path, system='VoucherVision'): print_main_start("Loading Configuration File") if system not in ['LeafMachine2', 'VoucherVision', 'SpecimenCrop']: raise ValueError("Invalid system. Expected 'LeafMachine2' or 'VoucherVision' or 'SpecimenCrop'.") if cfg_file_path == None: print_main_info(''.join([os.path.join(dir_home, f'{system}.yaml')])) elif cfg_file_path == 'test_installation': print_main_info(''.join([os.path.join(dir_home, 'demo', f'{system}_demo.yaml')])) else: print_main_info(cfg_file_path) def make_file_names_valid(dir, cfg): if cfg['leafmachine']['do']['check_for_illegal_filenames']: n_total = len(os.listdir(dir)) for file in tqdm(os.listdir(dir), desc=f'{bcolors.HEADER} Removing illegal characters from file names{bcolors.ENDC}',colour="cyan",position=0,total = n_total): name = Path(file).stem ext = Path(file).suffix name_cleaned = re.sub(r"[^a-zA-Z0-9_-]","-",name) name_new = ''.join([name_cleaned,ext]) i = 0 try: os.rename(os.path.join(dir,file), os.path.join(dir,name_new)) except: while os.path.exists(os.path.join(dir,name_new)): i += 1 name_new = '_'.join([name_cleaned, str(i), ext]) os.rename(os.path.join(dir,file), os.path.join(dir,name_new)) # def load_config_file(dir_home, cfg_file_path): # if cfg_file_path == None: # Default path # return load_cfg(dir_home) # else: # if cfg_file_path == 'test_installation': # path_cfg = os.path.join(dir_home,'demo','LeafMachine2_demo.yaml') # return get_cfg_from_full_path(path_cfg) # else: # Custom path # return get_cfg_from_full_path(cfg_file_path) # def load_config_file_VV(dir_home, cfg_file_path): # if cfg_file_path == None: # Default path # return load_cfg_VV(dir_home) # else: # if cfg_file_path == 'test_installation': # path_cfg = os.path.join(dir_home,'demo','VoucherVision_demo.yaml') # return get_cfg_from_full_path(path_cfg) # else: # Custom path # return get_cfg_from_full_path(cfg_file_path) def load_config_file(dir_home, cfg_file_path, system='LeafMachine2'): if system not in ['LeafMachine2', 'VoucherVision', 'SpecimenCrop']: raise ValueError("Invalid system. Expected 'LeafMachine2' or 'VoucherVision' or 'SpecimenCrop'.") if cfg_file_path is None: # Default path if system == 'LeafMachine2': return load_cfg(dir_home, system='LeafMachine2') # For LeafMachine2 elif system == 'VoucherVision': # VoucherVision return load_cfg(dir_home, system='VoucherVision') # For VoucherVision elif system == 'SpecimenCrop': # SpecimenCrop return load_cfg(dir_home, system='SpecimenCrop') # For SpecimenCrop else: if cfg_file_path == 'test_installation': path_cfg = os.path.join(dir_home, 'demo', f'{system}_demo.yaml') return get_cfg_from_full_path(path_cfg) else: # Custom path return get_cfg_from_full_path(cfg_file_path) def load_config_file_testing(dir_home, cfg_file_path): if cfg_file_path == None: # Default path return load_cfg(dir_home) else: if cfg_file_path == 'test_installation': path_cfg = os.path.join(dir_home,'demo','demo.yaml') return get_cfg_from_full_path(path_cfg) else: # Custom path return get_cfg_from_full_path(cfg_file_path) def subset_dir_images(cfg, Project, Dirs): if cfg['leafmachine']['project']['process_subset_of_images']: dir_images_subset = cfg['leafmachine']['project']['dir_images_subset'] num_images_per_species = cfg['leafmachine']['project']['n_images_per_species'] if cfg['leafmachine']['project']['species_list'] is not None: species_list = import_csv(cfg['leafmachine']['project']['species_list']) species_list = species_list.iloc[:, 0].tolist() else: species_list = None validate_dir(dir_images_subset) species_counts = {} filenames = os.listdir(Project.dir_images) random.shuffle(filenames) for filename in filenames: species_name = filename.split('.')[0] species_name = species_name.split('_')[2:] species_name = '_'.join([species_name[0], species_name[1], species_name[2]]) if (species_list is None) or ((species_name in species_list) and (species_list is not None)): if species_name not in species_counts: species_counts[species_name] = 0 if species_counts[species_name] < num_images_per_species: species_counts[species_name] += 1 src_path = os.path.join(Project.dir_images, filename) dest_path = os.path.join(dir_images_subset, filename) shutil.copy(src_path, dest_path) Project.dir_images = dir_images_subset subset_csv_name = os.path.join(Dirs.dir_images_subset, '.'.join([Dirs.run_name, 'csv'])) df = pd.DataFrame({'species_name': list(species_counts.keys()), 'count': list(species_counts.values())}) df.to_csv(subset_csv_name, index=False) return Project else: return Project '''# Define function to be executed by each worker def worker_crop(rank, cfg, dir_home, Project, Dirs): # Set worker seed based on rank np.random.seed(rank) # Call function for this worker crop_detections_from_images(cfg, dir_home, Project, Dirs) def crop_detections_from_images(cfg, dir_home, Project, Dirs): num_workers = 6 # Initialize and start worker processes processes = [] for rank in range(num_workers): p = mp.Process(target=worker_crop, args=(rank, cfg, dir_home, Project, Dirs)) p.start() processes.append(p) # Wait for all worker processes to finish for p in processes: p.join()''' def crop_detections_from_images_worker_VV(filename, analysis, Project, Dirs, save_per_image, save_per_class, save_list, binarize_labels): try: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpg']))) except: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpeg']))) try: archival = analysis['Detections_Archival_Components'] has_archival = True except: has_archival = False try: plant = analysis['Detections_Plant_Components'] has_plant = True except: has_plant = False if has_archival and (save_per_image or save_per_class): crop_component_from_yolo_coords_VV('ARCHIVAL', Dirs, analysis, archival, full_image, filename, save_per_image, save_per_class, save_list) def crop_detections_from_images_worker(filename, analysis, Project, Dirs, save_per_image, save_per_class, save_list, binarize_labels): try: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpg']))) except: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpeg']))) try: archival = analysis['Detections_Archival_Components'] has_archival = True except: has_archival = False try: plant = analysis['Detections_Plant_Components'] has_plant = True except: has_plant = False if has_archival and (save_per_image or save_per_class): crop_component_from_yolo_coords('ARCHIVAL', Dirs, analysis, archival, full_image, filename, save_per_image, save_per_class, save_list) if has_plant and (save_per_image or save_per_class): crop_component_from_yolo_coords('PLANT', Dirs, analysis, plant, full_image, filename, save_per_image, save_per_class, save_list) def crop_detections_from_images(cfg, logger, dir_home, Project, Dirs, batch_size=50): t2_start = perf_counter() logger.name = 'Crop Components' if cfg['leafmachine']['cropped_components']['do_save_cropped_annotations']: detections = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] logger.info(f"Cropping {detections} components from images") save_per_image = cfg['leafmachine']['cropped_components']['save_per_image'] save_per_class = cfg['leafmachine']['cropped_components']['save_per_annotation_class'] save_list = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] try: binarize_labels = cfg['leafmachine']['cropped_components']['binarize_labels'] except: binarize_labels = False if cfg['leafmachine']['project']['batch_size'] is None: batch_size = 50 else: batch_size = int(cfg['leafmachine']['project']['batch_size']) if cfg['leafmachine']['project']['num_workers'] is None: num_workers = 4 else: num_workers = int(cfg['leafmachine']['project']['num_workers']) if binarize_labels: save_per_class = True with concurrent.futures.ThreadPoolExecutor(max_workers=num_workers) as executor: futures = [] for i in range(0, len(Project.project_data), batch_size): batch = list(Project.project_data.items())[i:i+batch_size] # print(f'Cropping Detections from Images {i} to {i+batch_size}') logger.info(f'Cropping {detections} from images {i} to {i+batch_size} [{len(Project.project_data)}]') for filename, analysis in batch: if len(analysis) != 0: futures.append(executor.submit(crop_detections_from_images_worker, filename, analysis, Project, Dirs, save_per_image, save_per_class, save_list, binarize_labels)) for future in concurrent.futures.as_completed(futures): pass futures.clear() t2_stop = perf_counter() logger.info(f"Save cropped components --- elapsed time: {round(t2_stop - t2_start)} seconds") def crop_detections_from_images_VV(cfg, logger, dir_home, Project, Dirs, batch_size=50): t2_start = perf_counter() logger.name = 'Crop Components' if cfg['leafmachine']['cropped_components']['do_save_cropped_annotations']: detections = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] logger.info(f"Cropping {detections} components from images") save_per_image = cfg['leafmachine']['cropped_components']['save_per_image'] save_per_class = cfg['leafmachine']['cropped_components']['save_per_annotation_class'] save_list = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] binarize_labels = cfg['leafmachine']['cropped_components']['binarize_labels'] if cfg['leafmachine']['project']['batch_size'] is None: batch_size = 50 else: batch_size = int(cfg['leafmachine']['project']['batch_size']) if cfg['leafmachine']['project']['num_workers'] is None: num_workers = 4 else: num_workers = int(cfg['leafmachine']['project']['num_workers']) if binarize_labels: save_per_class = True with concurrent.futures.ThreadPoolExecutor(max_workers=num_workers) as executor: futures = [] for i in range(0, len(Project.project_data), batch_size): batch = list(Project.project_data.items())[i:i+batch_size] # print(f'Cropping Detections from Images {i} to {i+batch_size}') logger.info(f'Cropping {detections} from images {i} to {i+batch_size} [{len(Project.project_data)}]') for filename, analysis in batch: if len(analysis) != 0: futures.append(executor.submit(crop_detections_from_images_worker_VV, filename, analysis, Project, Dirs, save_per_image, save_per_class, save_list, binarize_labels)) for future in concurrent.futures.as_completed(futures): pass futures.clear() t2_stop = perf_counter() logger.info(f"Save cropped components --- elapsed time: {round(t2_stop - t2_start)} seconds") # def crop_detections_from_images_VV(cfg, logger, dir_home, Project, Dirs, batch_size=50): # t2_start = perf_counter() # logger.name = 'Crop Components' # if cfg['leafmachine']['cropped_components']['do_save_cropped_annotations']: # detections = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] # logger.info(f"Cropping {detections} components from images") # save_per_image = cfg['leafmachine']['cropped_components']['save_per_image'] # save_per_class = cfg['leafmachine']['cropped_components']['save_per_annotation_class'] # save_list = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] # binarize_labels = cfg['leafmachine']['cropped_components']['binarize_labels'] # if cfg['leafmachine']['project']['batch_size'] is None: # batch_size = 50 # else: # batch_size = int(cfg['leafmachine']['project']['batch_size']) # if binarize_labels: # save_per_class = True # for i in range(0, len(Project.project_data), batch_size): # batch = list(Project.project_data.items())[i:i+batch_size] # logger.info(f"Cropping {detections} from images {i} to {i+batch_size} [{len(Project.project_data)}]") # for filename, analysis in batch: # if len(analysis) != 0: # crop_detections_from_images_worker_VV(filename, analysis, Project, Dirs, save_per_image, save_per_class, save_list, binarize_labels) # t2_stop = perf_counter() # logger.info(f"Save cropped components --- elapsed time: {round(t2_stop - t2_start)} seconds") # def crop_detections_from_images_SpecimenCrop(cfg, logger, dir_home, Project, Dirs, original_img_dir=None, batch_size=50): # t2_start = perf_counter() # logger.name = 'Crop Components --- Specimen Crop' # if cfg['leafmachine']['modules']['specimen_crop']: # # save_list = ['ruler', 'barcode', 'colorcard', 'label', 'map', 'envelope', 'photo', 'attached_item', 'weights', # # 'leaf_whole', 'leaf_partial', 'leaflet', 'seed_fruit_one', 'seed_fruit_many', 'flower_one', 'flower_many', 'bud', 'specimen', 'roots', 'wood'] # save_list = cfg['leafmachine']['cropped_components']['include_these_objects_in_specimen_crop'] # logger.info(f"Cropping to include {save_list} components from images") # if cfg['leafmachine']['project']['batch_size'] is None: # batch_size = 50 # else: # batch_size = int(cfg['leafmachine']['project']['batch_size']) # if cfg['leafmachine']['project']['num_workers'] is None: # num_workers = 4 # else: # num_workers = int(cfg['leafmachine']['project']['num_workers']) # with concurrent.futures.ThreadPoolExecutor(max_workers=num_workers) as executor: # futures = [] # for i in range(0, len(Project.project_data), batch_size): # batch = list(Project.project_data.items())[i:i+batch_size] # # print(f'Cropping Detections from Images {i} to {i+batch_size}') # logger.info(f'Cropping {save_list} from images {i} to {i+batch_size} [{len(Project.project_data)}]') # for filename, analysis in batch: # if len(analysis) != 0: # futures.append(executor.submit(crop_detections_from_images_worker_SpecimenCrop, filename, analysis, Project, Dirs, save_list, original_img_dir)) # for future in concurrent.futures.as_completed(futures): # pass # futures.clear() # t2_stop = perf_counter() # logger.info(f"Save cropped components --- elapsed time: {round(t2_stop - t2_start)} seconds") ''' # Single threaded def crop_detections_from_images(cfg, dir_home, Project, Dirs): if cfg['leafmachine']['cropped_components']['do_save_cropped_annotations']: save_per_image = cfg['leafmachine']['cropped_components']['save_per_image'] save_per_class = cfg['leafmachine']['cropped_components']['save_per_annotation_class'] save_list = cfg['leafmachine']['cropped_components']['save_cropped_annotations'] binarize_labels = cfg['leafmachine']['cropped_components']['binarize_labels'] if binarize_labels: save_per_class = True for filename, analysis in tqdm(Project.project_data.items(), desc=f'{bcolors.BOLD} Cropping Detections from Images{bcolors.ENDC}',colour="cyan",position=0,total = len(Project.project_data.items())): if len(analysis) != 0: try: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpg']))) except: full_image = cv2.imread(os.path.join(Project.dir_images, '.'.join([filename, 'jpeg']))) try: archival = analysis['Detections_Archival_Components'] has_archival = True except: has_archival = False try: plant = analysis['Detections_Plant_Components'] has_plant = True except: has_plant = False if has_archival and (save_per_image or save_per_class): crop_component_from_yolo_coords('ARCHIVAL', Dirs, analysis, archival, full_image, filename, save_per_image, save_per_class, save_list) if has_plant and (save_per_image or save_per_class): crop_component_from_yolo_coords('PLANT', Dirs, analysis, plant, full_image, filename, save_per_image, save_per_class, save_list) ''' def process_detections(success, save_list, detections, detection_type, height, width, min_x, min_y, max_x, max_y): for detection in detections: detection_class = detection[0] detection_class = set_index_for_annotation(detection_class, detection_type) if (detection_class in save_list) or ('save_all' in save_list): location = yolo_to_position_ruler(detection, height, width) ruler_polygon = [ (location[1], location[2]), (location[3], location[2]), (location[3], location[4]), (location[1], location[4]) ] x_coords = [x for x, y in ruler_polygon] y_coords = [y for x, y in ruler_polygon] min_x = min(min_x, *x_coords) min_y = min(min_y, *y_coords) max_x = max(max_x, *x_coords) max_y = max(max_y, *y_coords) success = True return min_x, min_y, max_x, max_y, success def crop_component_from_yolo_coords_VV(anno_type, Dirs, analysis, all_detections, full_image, filename, save_per_image, save_per_class, save_list): height = analysis['height'] width = analysis['width'] # Initialize a list to hold all the cropped images cropped_images = [] if len(all_detections) < 1: print(' MAKE THIS HAVE AN EMPTY PLACEHOLDER') # TODO ################################################################################### else: for detection in all_detections: detection_class = detection[0] detection_class = set_index_for_annotation(detection_class, anno_type) if (detection_class in save_list) or ('save_all' in save_list): location = yolo_to_position_ruler(detection, height, width) ruler_polygon = [(location[1], location[2]), (location[3], location[2]), (location[3], location[4]), (location[1], location[4])] x_coords = [x for x, y in ruler_polygon] y_coords = [y for x, y in ruler_polygon] min_x, min_y = min(x_coords), min(y_coords) max_x, max_y = max(x_coords), max(y_coords) detection_cropped = full_image[min_y:max_y, min_x:max_x] cropped_images.append(detection_cropped) loc = '-'.join([str(min_x), str(min_y), str(max_x), str(max_y)]) detection_cropped_name = '.'.join(['__'.join([filename, detection_class, loc]), 'jpg']) # detection_cropped_name = '.'.join([filename,'jpg']) # save_per_image if (detection_class in save_list) and save_per_image: if detection_class == 'label': detection_class2 = 'label_ind' else: detection_class2 = detection_class dir_destination = os.path.join(Dirs.save_per_image, filename, detection_class2) # print(os.path.join(dir_destination,detection_cropped_name)) validate_dir(dir_destination) # cv2.imwrite(os.path.join(dir_destination,detection_cropped_name), detection_cropped) # save_per_class if (detection_class in save_list) and save_per_class: if detection_class == 'label': detection_class2 = 'label_ind' else: detection_class2 = detection_class dir_destination = os.path.join(Dirs.save_per_annotation_class, detection_class2) # print(os.path.join(dir_destination,detection_cropped_name)) validate_dir(dir_destination) # cv2.imwrite(os.path.join(dir_destination,detection_cropped_name), detection_cropped) else: # print(f'detection_class: {detection_class} not in save_list: {save_list}') pass # Initialize a list to hold all the acceptable cropped images acceptable_cropped_images = [] for img in cropped_images: # Calculate the aspect ratio of the image aspect_ratio = min(img.shape[0], img.shape[1]) / max(img.shape[0], img.shape[1]) # Only add the image to the acceptable list if the aspect ratio is more square than 1:8 if aspect_ratio >= 1/8: acceptable_cropped_images.append(img) # Sort acceptable_cropped_images by area (largest first) acceptable_cropped_images.sort(key=lambda img: img.shape[0] * img.shape[1], reverse=True) # If there are no acceptable cropped images, set combined_image to None or to a placeholder image if not acceptable_cropped_images: combined_image = None # Or a placeholder image here else: # # Recalculate max_width and total_height for acceptable images # max_width = max(img.shape[1] for img in acceptable_cropped_images) # total_height = sum(img.shape[0] for img in acceptable_cropped_images) # # Now, combine all the acceptable cropped images into a single image # combined_image = np.zeros((total_height, max_width, 3), dtype=np.uint8) # y_offset = 0 # for img in acceptable_cropped_images: # combined_image[y_offset:y_offset+img.shape[0], :img.shape[1]] = img # y_offset += img.shape[0] # Start with the first image # Recalculate max_width and total_height for acceptable images max_width = max(img.shape[1] for img in acceptable_cropped_images) total_height = sum(img.shape[0] for img in acceptable_cropped_images) combined_image = np.zeros((total_height, max_width, 3), dtype=np.uint8) y_offset = 0 y_offset_next_row = 0 x_offset = 0 # Start with the first image combined_image[y_offset:y_offset+acceptable_cropped_images[0].shape[0], :acceptable_cropped_images[0].shape[1]] = acceptable_cropped_images[0] y_offset_next_row += acceptable_cropped_images[0].shape[0] # Add the second image below the first one y_offset = y_offset_next_row combined_image[y_offset:y_offset+acceptable_cropped_images[1].shape[0], :acceptable_cropped_images[1].shape[1]] = acceptable_cropped_images[1] y_offset_next_row += acceptable_cropped_images[1].shape[0] # Create a list to store the images that are too tall for the current row too_tall_images = [] # Now try to fill in to the right with the remaining images current_width = acceptable_cropped_images[1].shape[1] for img in acceptable_cropped_images[2:]: if current_width + img.shape[1] > max_width: # If this image doesn't fit, start a new row y_offset = y_offset_next_row combined_image[y_offset:y_offset+img.shape[0], :img.shape[1]] = img current_width = img.shape[1] y_offset_next_row = y_offset + img.shape[0] else: # If this image fits, add it to the right max_height = y_offset_next_row - y_offset if img.shape[0] > max_height: too_tall_images.append(img) else: combined_image[y_offset:y_offset+img.shape[0], current_width:current_width+img.shape[1]] = img current_width += img.shape[1] # Process the images that were too tall for their rows for img in too_tall_images: y_offset = y_offset_next_row combined_image[y_offset:y_offset+img.shape[0], :img.shape[1]] = img y_offset_next_row += img.shape[0] # Trim the combined_image to remove extra black space combined_image = combined_image[:y_offset_next_row] # save the combined image # if (detection_class in save_list) and save_per_class: dir_destination = os.path.join(Dirs.save_per_annotation_class, 'label') validate_dir(dir_destination) # combined_image_name = '__'.join([filename, detection_class]) + '.jpg' combined_image_name = '.'.join([filename,'jpg']) cv2.imwrite(os.path.join(dir_destination, combined_image_name), combined_image) original_image_name = '.'.join([filename,'jpg']) cv2.imwrite(os.path.join(Dirs.save_original, original_image_name), full_image) def crop_component_from_yolo_coords(anno_type, Dirs, analysis, all_detections, full_image, filename, save_per_image, save_per_class, save_list): height = analysis['height'] width = analysis['width'] if len(all_detections) < 1: print(' MAKE THIS HAVE AN EMPTY PLACEHOLDER') # TODO ################################################################################### else: for detection in all_detections: detection_class = detection[0] detection_class = set_index_for_annotation(detection_class, anno_type) if (detection_class in save_list) or ('save_all' in save_list): location = yolo_to_position_ruler(detection, height, width) ruler_polygon = [(location[1], location[2]), (location[3], location[2]), (location[3], location[4]), (location[1], location[4])] x_coords = [x for x, y in ruler_polygon] y_coords = [y for x, y in ruler_polygon] min_x, min_y = min(x_coords), min(y_coords) max_x, max_y = max(x_coords), max(y_coords) detection_cropped = full_image[min_y:max_y, min_x:max_x] loc = '-'.join([str(min_x), str(min_y), str(max_x), str(max_y)]) detection_cropped_name = '.'.join(['__'.join([filename, detection_class, loc]), 'jpg']) # save_per_image if (detection_class in save_list) and save_per_image: dir_destination = os.path.join(Dirs.save_per_image, filename, detection_class) # print(os.path.join(dir_destination,detection_cropped_name)) validate_dir(dir_destination) cv2.imwrite(os.path.join(dir_destination,detection_cropped_name), detection_cropped) # save_per_class if (detection_class in save_list) and save_per_class: dir_destination = os.path.join(Dirs.save_per_annotation_class, detection_class) # print(os.path.join(dir_destination,detection_cropped_name)) validate_dir(dir_destination) cv2.imwrite(os.path.join(dir_destination,detection_cropped_name), detection_cropped) else: # print(f'detection_class: {detection_class} not in save_list: {save_list}') pass def yolo_to_position_ruler(annotation, height, width): return ['ruler', int((annotation[1] * width) - ((annotation[3] * width) / 2)), int((annotation[2] * height) - ((annotation[4] * height) / 2)), int(annotation[3] * width) + int((annotation[1] * width) - ((annotation[3] * width) / 2)), int(annotation[4] * height) + int((annotation[2] * height) - ((annotation[4] * height) / 2))] class bcolors: HEADER = '\033[95m' OKBLUE = '\033[94m' OKCYAN = '\033[96m' OKGREEN = '\033[92m' WARNING = '\033[93m' FAIL = '\033[91m' ENDC = '\033[0m' BOLD = '\033[1m' UNDERLINE = '\033[4m' CEND = '\33[0m' CBOLD = '\33[1m' CITALIC = '\33[3m' CURL = '\33[4m' CBLINK = '\33[5m' CBLINK2 = '\33[6m' CSELECTED = '\33[7m' CBLACK = '\33[30m' CRED = '\33[31m' CGREEN = '\33[32m' CYELLOW = '\33[33m' CBLUE = '\33[34m' CVIOLET = '\33[35m' CBEIGE = '\33[36m' CWHITE = '\33[37m' CBLACKBG = '\33[40m' CREDBG = '\33[41m' CGREENBG = '\33[42m' CYELLOWBG = '\33[43m' CBLUEBG = '\33[44m' CVIOLETBG = '\33[45m' CBEIGEBG = '\33[46m' CWHITEBG = '\33[47m' CGREY = '\33[90m' CRED2 = '\33[91m' CGREEN2 = '\33[92m' CYELLOW2 = '\33[93m' CBLUE2 = '\33[94m' CVIOLET2 = '\33[95m' CBEIGE2 = '\33[96m' CWHITE2 = '\33[97m' CGREYBG = '\33[100m' CREDBG2 = '\33[101m' CGREENBG2 = '\33[102m' CYELLOWBG2 = '\33[103m' CBLUEBG2 = '\33[104m' CVIOLETBG2 = '\33[105m' CBEIGEBG2 = '\33[106m' CWHITEBG2 = '\33[107m' CBLUEBG3 = '\33[112m' def set_index_for_annotation(cls,annoType): if annoType == 'PLANT': if cls == 0: annoInd = 'Leaf_WHOLE' elif cls == 1: annoInd = 'Leaf_PARTIAL' elif cls == 2: annoInd = 'Leaflet' elif cls == 3: annoInd = 'Seed_Fruit_ONE' elif cls == 4: annoInd = 'Seed_Fruit_MANY' elif cls == 5: annoInd = 'Flower_ONE' elif cls == 6: annoInd = 'Flower_MANY' elif cls == 7: annoInd = 'Bud' elif cls == 8: annoInd = 'Specimen' elif cls == 9: annoInd = 'Roots' elif cls == 10: annoInd = 'Wood' elif annoType == 'ARCHIVAL': if cls == 0: annoInd = 'Ruler' elif cls == 1: annoInd = 'Barcode' elif cls == 2: annoInd = 'Colorcard' elif cls == 3: annoInd = 'Label' elif cls == 4: annoInd = 'Map' elif cls == 5: annoInd = 'Envelope' elif cls == 6: annoInd = 'Photo' elif cls == 7: annoInd = 'Attached_item' elif cls == 8: annoInd = 'Weights' return annoInd.lower() # def set_yaml(path_to_yaml, value): # with open('file_to_edit.yaml') as f: # doc = yaml.load(f) # doc['state'] = state # with open('file_to_edit.yaml', 'w') as f: # yaml.dump(doc, f)