DeepCreamPy/decensor.py

try:
    # default library
    import os, logging, sys, config
except ImportError as e:
    print("Error when importing DEFAULT library : ", e)
    print("\nIf you made script named [\"os.py\", \"logging.py\", \"sys.py\", \"config.py\"] rename it")
    print("If not, re-install python or check your Python environment variables")
try:
    # local library
    import file
    from model import InpaintNN
    from libs.utils import *
    # external library
    import numpy as np
    from PIL import Image
    import tensorflow as tf
    from PySide2 import QtCore # for QThread
except ImportError as e:
    print("\n"+ '='*20 + " ImportError " + "=" * 20 + "\n")
    if e.__class__.__name__ == "ModuleNotFoundError":
        print(e)
        print("Python libraries are missing. You can install all required libraries by running in the command line (terminal)")
        print("cpu version : pip install -r requirements-cpu.txt")
        print("gpu version : pip install -r requirements-gpu.txt")
    else:
        print("Error when importing libraries: ", e)
    print("\nIf pip doesn't work, try update through Anaconda")
    print("install Anaconda : https://www.anaconda.com/distribution/ \n")

class Decensor(QtCore.QThread):
    def __init__(self, parentThread = None, text_edit = None, text_cursor = None, ui_mode = None):
        super().__init__(parentThread)
        args = config.get_args()
        self.is_mosaic = args.is_mosaic
        self.variations = args.variations
        self.mask_color = [args.mask_color_red/255.0, args.mask_color_green/255.0, args.mask_color_blue/255.0]
        self.decensor_input_path = args.decensor_input_path
        self.decensor_input_original_path = args.decensor_input_original_path
        self.decensor_output_path = args.decensor_output_path

        self.signals = None # Signals class will be given by progressWindow

        self.model = None
        self.warm_up = False

        # if ui_mode is not None:
        #     self.ui_mode = ui_mode
        # else:
        #     self.ui_mode = args.ui_mode
        #
        # if self.ui_mode:
        #     self.text_edit = text_edit
        #     self.text_cursor = text_cursor
        #     self.ui_mode = True

        if not os.path.exists(self.decensor_output_path):
            os.makedirs(self.decensor_output_path)

    def run(self):
        if not self.warm_up :
            print("if self.warm_up :")
            self.load_model()
            return
        elif self.warm_up:
            print("elif not self.warm_up:")
            self.decensor_all_images_in_folder()

    def stop(self):
        # in case of stopping decensor, terminate not to run if self while MainWindow is closed
        self.terminate()

    def find_mask(self, colored):
        # self.signals.update_progress_LABEL.emit("find_mask()", "finding mask...")
        mask = np.ones(colored.shape, np.uint8)
        i, j = np.where(np.all(colored[0] == self.mask_color, axis=-1))
        mask[0, i, j] = 0
        return mask

    def load_model(self):
        self.signals.insertText_progressCursor.emit("Loading model ... please wait ...\n")
        if self.model is None :
            self.model = InpaintNN(bar_model_name = "./models/bar/Train_775000.meta",
                                   bar_checkpoint_name = "./models/bar/",
                                   mosaic_model_name = "./models/mosaic/Train_290000.meta",
                                   mosaic_checkpoint_name = "./models/mosaic/",
                                   is_mosaic=self.is_mosaic)
        self.warm_up = True
        print("load model finished")
        self.signals.insertText_progressCursor.emit("Loading model finished!\n")
        self.signals.update_decensorButton_Text.emit("Decensor Your Images")
        self.signals.update_decensorButton_Enabled.emit(True)

    def decensor_all_images_in_folder(self):
        #load model once at beginning and reuse same model
        if not self.warm_up :
            # incase of running by source code
            self.load_model()

        input_color_dir = self.decensor_input_path
        file_names = os.listdir(input_color_dir)

        input_dir = self.decensor_input_path
        output_dir = self.decensor_output_path

        # Change False to True before release --> file.check_file(input_dir, output_dir, True)
        # self.signals.update_progress_LABEL.emit("file.check_file()", "Checking image files and directory...")
        self.signals.insertText_progressCursor.emit("Checking image files and directory...\n")

        file_names, self.files_removed = file.check_file(input_dir, output_dir, False)

        # self.signals.total_ProgressBar_update_MAX_VALUE.emit("set total progress bar MaxValue : "+str(len(file_names)),len(file_names))
        '''
        print("set total progress bar MaxValue : "+str(len(file_names)))
        self.signals.update_ProgressBar_MAX_VALUE.emit(len(file_names))
        '''
        self.signals.insertText_progressCursor.emit("Decensoring {} image files\n".format(len(file_names)))

        #convert all images into np arrays and put them in a list
        for n, file_name in enumerate(file_names, start = 1):
            # self.signals.total_ProgressBar_update_VALUE.emit("Decensoring {} / {}".format(n, len(file_names)), n)
            '''
            self.update_ProgressBar_SET_VALUE.emit(n)
            print("Decensoring {} / {}".format(n, len(file_names)))
            '''
            self.signals.insertText_progressCursor.emit("Decensoring image file : {}\n".format(file_name))

            # signal progress bar value == masks decensored on image ,
            # e.g) sample image : 17
            # self.signals.signal_ProgressBar_update_VALUE.emit("reset value", 0) # set to 0 for every image at start
            # self.signals.update_progress_LABEL.emit("for-loop, \"for file_name in file_names:\"","Decensoring : "+str(file_name))

            color_file_path = os.path.join(input_color_dir, file_name)
            color_basename, color_ext = os.path.splitext(file_name)
            if os.path.isfile(color_file_path) and color_ext.casefold() == ".png":
                print("--------------------------------------------------------------------------")
                print("Decensoring the image {}\n".format(color_file_path))
                try :
                    colored_img = Image.open(color_file_path)
                except:
                    print("Cannot identify image file (" +str(color_file_path)+")")
                    self.files_removed.append((color_file_path,3))
                    # incase of abnormal file format change (ex : text.txt -> text.png)
                    continue

                #if we are doing a mosaic decensor
                if self.is_mosaic:
                    #get the original file that hasn't been colored
                    ori_dir = self.decensor_input_original_path
                    test_file_names = os.listdir(ori_dir)
                    #since the original image might not be a png, test multiple file formats
                    valid_formats = {".png", ".jpg", ".jpeg"}
                    for test_file_name in test_file_names:
                        test_basename, test_ext = os.path.splitext(test_file_name)
                        if (test_basename == color_basename) and (test_ext.casefold() in valid_formats):
                            ori_file_path = os.path.join(ori_dir, test_file_name)
                            ori_img = Image.open(ori_file_path)
                            # colored_img.show()
                            self.decensor_image_variations(ori_img, colored_img, file_name)
                            break
                    else: #for...else, i.e if the loop finished without encountering break
                        print("Corresponding original, uncolored image not found in {}".format(color_file_path))
                        print("Check if it exists and is in the PNG or JPG format.")
                        self.signals.insertText_progressCursor.emit("Corresponding original, uncolored image not found in {}\n".format(color_file_path))
                        self.signals.insertText_progressCursor.emit("Check if it exists and is in the PNG or JPG format.\n")
                #if we are doing a bar decensor
                else:
                    self.decensor_image_variations(colored_img, colored_img, file_name)
            else:
                print("--------------------------------------------------------------------------")
                print("Image can't be found: "+str(color_file_path))
                self.signals.insertText_progressCursor.emit("Image can't be found: "+str(color_file_path) + "\n")

        print("--------------------------------------------------------------------------")
        if self.files_removed is not None:
            file.error_messages(None, self.files_removed)
        print("\nDecensoring complete!")

        #unload model to prevent memory issues
        # self.signals.update_progress_LABEL.emit("finished", "Decensoring complete! Close this window and reopen DCP to start a new session.")
        self.signals.insertText_progressCursor.emit("\nDecensoring complete! remove decensored file before decensoring again not to overwrite")
        self.signals.update_decensorButton_Enabled.emit(True)
        tf.reset_default_graph()

    def decensor_image_variations(self, ori, colored, file_name=None):
        for i in range(self.variations):
            self.decensor_image_variation(ori, colored, i, file_name)

    #create different decensors of the same image by flipping the input image
    def apply_variant(self, image, variant_number):
        if variant_number == 0:
            return image
        elif variant_number == 1:
            return image.transpose(Image.FLIP_LEFT_RIGHT)
        elif variant_number == 2:
            return image.transpose(Image.FLIP_TOP_BOTTOM)
        else:
            return image.transpose(Image.FLIP_LEFT_RIGHT).transpose(Image.FLIP_TOP_BOTTOM)

    #decensors one image at a time
    #TODO: decensor all cropped parts of the same image in a batch (then i need input for colored an array of those images and make additional changes)
    def decensor_image_variation(self, ori, colored, variant_number, file_name):
        ori = self.apply_variant(ori, variant_number)
        colored = self.apply_variant(colored, variant_number)
        width, height = ori.size
        #save the alpha channel if the image has an alpha channel
        has_alpha = False
        if (ori.mode == "RGBA"):
            has_alpha = True
            alpha_channel = np.asarray(ori)[:,:,3]
            alpha_channel = np.expand_dims(alpha_channel, axis =-1)
            ori = ori.convert('RGB')

        ori_array = image_to_array(ori)
        ori_array = np.expand_dims(ori_array, axis = 0)

        if self.is_mosaic:
            #if mosaic decensor, mask is empty
            # mask = np.ones(ori_array.shape, np.uint8)
            # print(mask.shape)
            colored = colored.convert('RGB')
            color_array = image_to_array(colored)
            color_array = np.expand_dims(color_array, axis = 0)
            mask = self.find_mask(color_array)
            mask_reshaped = mask[0,:,:,:] * 255.0
            mask_img = Image.fromarray(mask_reshaped.astype('uint8'))
            # mask_img.show()

        else:
            mask = self.find_mask(ori_array)

        #colored image is only used for finding the regions
        regions = find_regions(colored.convert('RGB'), [v*255 for v in self.mask_color])
        print("Found {region_count} censored regions in this image!".format(region_count = len(regions)))
        self.signals.insertText_progressCursor.emit("Found {region_count} censored regions in this image!".format(region_count = len(regions)))

        if len(regions) == 0 and not self.is_mosaic:
            print("No green (0,255,0) regions detected! Make sure you're using exactly the right color.")
            self.signals.insertText_progressCursor.emit("No green (0,255,0) regions detected! Make sure you're using exactly the right color.\n")
            return

        # self.signals.signal_ProgressBar_update_MAX_VALUE.emit("Found {} masked regions".format(len(regions)), len(regions))
        print("Found {} masked regions".format(len(regions)))

        # self.signals.insertText_progressCursor.emit("Found {} masked regions\n".format(len(regions)))
        self.signals.update_ProgressBar_MAX_VALUE.emit(len(regions))
        self.signals.update_ProgressBar_SET_VALUE.emit(0)

        output_img_array = ori_array[0].copy()

        for region_counter, region in enumerate(regions, 1):
            # self.signals.update_progress_LABEL.emit("\"Decensoring regions in image\"","Decensoring censor {}/{}".format(region_counter,len(regions)))
            self.signals.insertText_progressCursor.emit("Decensoring regions in image, Decensoring censor {}/{}".format(region_counter,len(regions)))
            bounding_box = expand_bounding(ori, region, expand_factor=1.5)
            crop_img = ori.crop(bounding_box)
            # crop_img.show()
            #convert mask back to image
            mask_reshaped = mask[0,:,:,:] * 255.0
            mask_img = Image.fromarray(mask_reshaped.astype('uint8'))
            #resize the cropped images
            crop_img = crop_img.resize((256, 256))
            crop_img_array = image_to_array(crop_img)
            #resize the mask images
            mask_img = mask_img.crop(bounding_box)
            mask_img = mask_img.resize((256, 256))
            # mask_img.show()
            #convert mask_img back to array
            mask_array = image_to_array(mask_img)
            #the mask has been upscaled so there will be values not equal to 0 or 1

            # mask_array[mask_array > 0] = 1
            # crop_img_array[..., :-1][mask_array==0] = (0,0,0)

            if not self.is_mosaic:
                a, b = np.where(np.all(mask_array == 0, axis = -1))
                # print(a,b)
                # print(crop_img_array[a,b])
                # print(crop_img_array[a,b,0])
                # print(crop_img_array.shape)
                # print(type(crop_img_array[0,0]))
                crop_img_array[a,b,:] = 0.
            # temp = Image.fromarray((crop_img_array * 255.0).astype('uint8'))
            # temp.show()

            crop_img_array = np.expand_dims(crop_img_array, axis = 0)
            mask_array = np.expand_dims(mask_array, axis = 0)

            # print(np.amax(crop_img_array))
            # print(np.amax(mask_array))
            # print(np.amax(masked))

            # print(np.amin(crop_img_array))
            # print(np.amin(mask_array))
            # print(np.amin(masked))

            # print(mask_array)

            crop_img_array = crop_img_array * 2.0 - 1
            # mask_array = mask_array / 255.0

            # Run predictions for this batch of images
            pred_img_array = self.model.predict(crop_img_array, crop_img_array, mask_array)

            pred_img_array = np.squeeze(pred_img_array, axis = 0)
            pred_img_array = (255.0 * ((pred_img_array + 1.0) / 2.0)).astype(np.uint8)

            #scale prediction image back to original size
            bounding_width = bounding_box[2]-bounding_box[0]
            bounding_height = bounding_box[3]-bounding_box[1]
            #convert np array to image

            # print(bounding_width,bounding_height)
            # print(pred_img_array.shape)

            pred_img = Image.fromarray(pred_img_array.astype('uint8'))
            # pred_img.show()
            pred_img = pred_img.resize((bounding_width, bounding_height), resample = Image.BICUBIC)
            # pred_img.show()

            pred_img_array = image_to_array(pred_img)

            # print(pred_img_array.shape)
            pred_img_array = np.expand_dims(pred_img_array, axis = 0)

            # copy the decensored regions into the output image
            for i in range(len(ori_array)):
                for col in range(bounding_width):
                    for row in range(bounding_height):
                        bounding_width_index = col + bounding_box[0]
                        bounding_height_index = row + bounding_box[1]
                        if (bounding_width_index, bounding_height_index) in region:
                            output_img_array[bounding_height_index][bounding_width_index] = pred_img_array[i,:,:,:][row][col]
            # self.signals.signal_ProgressBar_update_VALUE.emit("{} out of {} regions decensored.".format(region_counter, len(regions)), region_counter)
            self.signals.update_ProgressBar_SET_VALUE.emit(region_counter)
            self.signals.insertText_progressCursor.emit("{} out of {} regions decensored.\n".format(region_counter, len(regions)))
            print("{region_counter} out of {region_count} regions decensored.".format(region_counter=region_counter, region_count=len(regions)))

        output_img_array = output_img_array * 255.0

        #restore the alpha channel if the image had one
        if has_alpha:
            output_img_array = np.concatenate((output_img_array, alpha_channel), axis = 2)

        output_img = Image.fromarray(output_img_array.astype('uint8'))
        output_img = self.apply_variant(output_img, variant_number)

        # self.signals.update_progress_LABEL.emit("current image finished", "Decensoring of current image finished. Saving image...")
        self.signals.insertText_progressCursor.emit("Decensoring of current image finished. Saving image...")
        print("current image finished")

        if file_name != None:
            #save the decensored image
            base_name, ext = os.path.splitext(file_name)
            file_name = base_name + " " + str(variant_number) + ext
            save_path = os.path.join(self.decensor_output_path, file_name)
            output_img.save(save_path)
            print("Decensored image saved to {save_path}!".format(save_path=save_path))
            self.signals.insertText_progressCursor.emit("Decensored image saved to {save_path}!".format(save_path=save_path))
            self.signals.insertText_progressCursor.emit("="*30)
        else:
            # Legacy Code piece ↓, used when DCPv1 had ui with Painting
            print("Decensored image. Returning it.")
            return output_img

# if __name__ == '__main__':
    # decensor = Decensor()
    # decensor.decensor_all_images_in_folder()
    # equivalent to decensor.start() (running as QtThread)