"""! @file main.py @brief Main file for the application @author xlanro00 """ # Import basic libraries import argparse as ap import sys import json from datetime import datetime # Libraries for image processing import numpy as np import matplotlib.pyplot as plt from PIL import Image import cv2 as cv # Import custom image filter library import filters as flt class apply_filters: def __init__(self): # Parse arguments from command line self.parse_arguments() self.input_file = self.args.input_file self.output_file = self.args.output_file self.dpi = self.args.dpi self.filters = self.args.filters self.mirror = self.args.mirror if self.args.mirror else 0 # Parse configuration from json file if self.args.config: self.config_file = self.args.config[0] self.preset_name = self.args.config[1] self.config = json.load(open(self.config_file)) self.parse_conf() # If no preset name given, create one from time #self.preset_name = "preset_" + datetime.now().strftime("%d_%m_%Y_%H_%M_%S") # If no config file given, expect filters in command line else: self.filters = self.args.filters # Convert dimensions self.img = Image.open(self.input_file) if self.img is None: sys.exit("Could not load the fingerprint.") #self.convert_dpi() #self.resize_image() #convert to numpy array for further processing self.img = np.array(self.img) if self.mirror: self.mirror_image() # Apply all filters self.apply_filter() def parse_conf(self): # Parse configuration file if given. try: self.filters = self.config[self.preset_name] except(KeyError): print("Preset not found", file=sys.stderr) def parse_arguments(self): # Parse arguments parser = ap.ArgumentParser(prog = 'main.py', description = 'Program for processing a 2D image into 3D fingerprint.') # positional arguments parser.add_argument("input_file", type = str, help = "Location with input file") parser.add_argument("output_file", type = str, help = "Output file location") parser.add_argument("dpi", type = int, help = "Scanner dpi") # boolean switch parser.add_argument('-m', "--mirror", help = "Mirror input image", type = bool, action = ap.BooleanOptionalAction) # file with configuration containing presets, new preset name # pair argument - give both or none parser.add_argument('--config', nargs=2, metavar=('config_file', 'preset'), help='Config file with presets, name of the preset') # array of unknown length, all filter names saved inside parser.add_argument('filters', type = str, nargs = '*', help = "List of filter names") self.args = parser.parse_args() def filter_factory(self, filter_name): # selects filter method of filters library # better this than a 100 if/else return getattr(flt, filter_name) def convert_dpi(self): # conversion from inches to milimeters self.size = np.empty(2) self.size[0] = self.img.size[0] # / self.dpi * 25.4 # width self.size[1] = self.img.size[1] # / self.dpi * 25.4 # height def resize_image(self): # open image as python image object print("Resize image", file = sys.stderr) self.convert_dpi() #self.img = self.img.resize((np.array(self.size)).astype(int)) def mirror_image(self): # mirror image when mirroring is needed # should be used only if we want a positive form print("Mirroring image", file=sys.stderr) self.img = cv.flip(self.img, 1) # 1 for vertical mirror def apply_filter(self): if len(self.filters) == 0: # save original image filter = flt.filter_none filter.apply(self) else: for filter_name in self.filters: filter = self.filter_factory(filter_name) filter.apply(self) self.save_image() def print_size(self, size): print("Width: " + str(size[0]), file = sys.stderr) print("Height: " + str(size[1]), file = sys.stderr) def save_image(self): # Save processed image. plt.xticks([]), plt.yticks([]) plt.axis('off') print("Saving image", file = sys.stderr) # TODO idk what dpi means, and if it should be put in here plt.savefig(self.output_file)#, dpi=self.dpi) app = apply_filters()