import os import shutil from difflib import Differ import evaluate import gradio as gr from helper.examples.examples import DemoImages from helper.utils import TrafficDataHandler from src.htr_pipeline.gradio_backend import CustomTrack, SingletonModelLoader model_loader = SingletonModelLoader() custom_track = CustomTrack(model_loader) images_for_demo = DemoImages() cer_metric = evaluate.load("cer") with gr.Blocks() as stepwise_htr_tool_tab: with gr.Tabs(): with gr.Tab("1. Region segmentation"): with gr.Row(): with gr.Column(scale=1): vis_data_folder_placeholder = gr.Markdown(visible=False) name_files_placeholder = gr.Markdown(visible=False) with gr.Group(): input_region_image = gr.Image( label="Image to region segment", # type="numpy", tool="editor", height=500, ) with gr.Accordion("Settings", open=False): with gr.Group(): reg_pred_score_threshold_slider = gr.Slider( minimum=0.4, maximum=1, value=0.5, step=0.05, label="P-threshold", info="""Filter the confidence score for a prediction score to be considered""", ) reg_containments_threshold_slider = gr.Slider( minimum=0, maximum=1, value=0.5, step=0.05, label="C-threshold", info="""The minimum required overlap or similarity for a detected region or object to be considered valid""", ) region_segment_model_dropdown = gr.Dropdown( choices=["Riksarkivet/rtm_region"], value="Riksarkivet/rtm_region", label="Region segmentation model", info="More models will be added", ) with gr.Row(): clear_button = gr.Button("Clear", variant="secondary", elem_id="clear_button") region_segment_button = gr.Button( "Run", variant="primary", elem_id="region_segment_button", ) region_segment_button_var = gr.State(value="region_segment_button") with gr.Column(scale=2): with gr.Box(): with gr.Row(): with gr.Column(scale=2): gr.Examples( examples=images_for_demo.examples_list, inputs=[name_files_placeholder, input_region_image], label="Example images", examples_per_page=5, ) with gr.Column(scale=3): output_region_image = gr.Image(label="Segmented regions", type="numpy", height=600) ############################################## with gr.Tab("2. Line segmentation"): image_placeholder_lines = gr.Image( label="Segmented lines", # type="numpy", interactive="False", visible=True, height=600, ) with gr.Row(visible=False) as control_line_segment: with gr.Column(scale=2): with gr.Group(): with gr.Box(): regions_cropped_gallery = gr.Gallery( label="Segmented regions", elem_id="gallery", columns=[2], rows=[2], # object_fit="contain", height=450, preview=True, container=False, ) input_region_from_gallery = gr.Image( label="Region segmentation to line segment", interactive="False", visible=False, height=400 ) with gr.Row(): with gr.Accordion("Settings", open=False): with gr.Row(): line_pred_score_threshold_slider = gr.Slider( minimum=0.3, maximum=1, value=0.4, step=0.05, label="Pred_score threshold", info="""Filter the confidence score for a prediction score to be considered""", ) line_containments_threshold_slider = gr.Slider( minimum=0, maximum=1, value=0.5, step=0.05, label="Containments threshold", info="""The minimum required overlap or similarity for a detected region or object to be considered valid""", ) with gr.Row(equal_height=False): line_segment_model_dropdown = gr.Dropdown( choices=["Riksarkivet/rtmdet_lines"], value="Riksarkivet/rtmdet_lines", label="Line segment model", info="More models will be added", ) with gr.Row(): # placeholder_line_button = gr.Button( # "", # variant="secondary", # scale=1, # ) gr.Markdown(" ") line_segment_button = gr.Button( "Run", variant="primary", # elem_id="center_button", scale=1, ) with gr.Column(scale=3): output_line_from_region = gr.Image( label="Segmented lines", type="numpy", interactive="False", height=600 ) ############################################### with gr.Tab("3. Text recognition"): image_placeholder_htr = gr.Image( label="Transcribed lines", # type="numpy", interactive="False", visible=True, height=600, ) with gr.Row(visible=False) as control_htr: inputs_lines_to_transcribe = gr.Variable() with gr.Column(scale=2): with gr.Group(): image_inputs_lines_to_transcribe = gr.Image( label="Transcribed lines", type="numpy", interactive="False", visible=False, height=470 ) with gr.Row(): with gr.Accordion("Settings", open=False): transcriber_model = gr.Dropdown( choices=["Riksarkivet/satrn_htr", "Riksarkivet/trocr-base-handwritten-swe"], value="Riksarkivet/trocr-base-handwritten-swe", label="Text recognition model", info="More models will be added", ) gr.Slider( value=0.6, minimum=0.5, maximum=1, label="HTR threshold", info="Prediction score threshold for transcribed lines", scale=1, ) with gr.Row(): copy_textarea = gr.Button("Copy text", variant="secondary", visible=True, scale=1) transcribe_button = gr.Button("Run", variant="primary", visible=True, scale=1) with gr.Column(scale=3): with gr.Row(): transcribed_text = gr.Textbox( label="Transcribed text", info="Transcribed text is being streamed back from the Text recognition model", lines=26, value="", show_copy_button=True, elem_id="textarea_stepwise_3", ) ##################################### with gr.Tab("4. Explore results"): image_placeholder_explore_results = gr.Image( label="Cropped transcribed lines", # type="numpy", interactive="False", visible=True, height=600, ) with gr.Row(visible=False, equal_height=False) as control_results_transcribe: with gr.Column(scale=1, visible=True): with gr.Group(): with gr.Box(): temp_gallery_input = gr.Variable() gallery_inputs_lines_to_transcribe = gr.Gallery( label="Cropped transcribed lines", elem_id="gallery_lines", columns=[3], rows=[3], # object_fit="contain", height=150, preview=True, container=False, ) with gr.Row(): dataframe_text_index = gr.Textbox( label="Text from DataFrame selection", placeholder="Select row from the DataFrame.", interactive=False, ) with gr.Row(): gt_text_index = gr.Textbox( label="Ground Truth", placeholder="Provide the ground truth, if available.", interactive=True, ) with gr.Row(): diff_token_output = gr.HighlightedText( label="Text diff", combine_adjacent=True, show_legend=True, color_map={"+": "red", "-": "green"}, ) with gr.Row(equal_height=False): cer_output = gr.Textbox(label="Character Error Rate") gr.Markdown("") calc_cer_button = gr.Button("Calculate CER", variant="primary", visible=True) with gr.Column(scale=1, visible=True): mapping_dict = gr.Variable() transcribed_text_df_finish = gr.Dataframe( headers=["Transcribed text", "Prediction score"], max_rows=14, col_count=(2, "fixed"), wrap=True, interactive=False, overflow_row_behaviour="paginate", height=600, ) # custom track def diff_texts(text1, text2): d = Differ() return [(token[2:], token[0] if token[0] != " " else None) for token in d.compare(text1, text2)] def compute_cer(dataframe_text_index, gt_text_index): if gt_text_index is not None and gt_text_index.strip() != "": return round(cer_metric.compute(predictions=[dataframe_text_index], references=[gt_text_index]), 4) else: return "Ground truth not provided" calc_cer_button.click( compute_cer, inputs=[dataframe_text_index, gt_text_index], outputs=cer_output, api_name=False, ) calc_cer_button.click( diff_texts, inputs=[dataframe_text_index, gt_text_index], outputs=[diff_token_output], api_name=False, ) region_segment_button.click( custom_track.region_segment, inputs=[input_region_image, reg_pred_score_threshold_slider, reg_containments_threshold_slider], outputs=[output_region_image, regions_cropped_gallery, image_placeholder_lines, control_line_segment], api_name=False, ) regions_cropped_gallery.select( custom_track.get_select_index_image, regions_cropped_gallery, input_region_from_gallery, api_name=False, ) transcribed_text_df_finish.select( fn=custom_track.get_select_index_df, inputs=[transcribed_text_df_finish, mapping_dict], outputs=[gallery_inputs_lines_to_transcribe, dataframe_text_index], api_name=False, ) line_segment_button.click( custom_track.line_segment, inputs=[input_region_from_gallery, line_pred_score_threshold_slider, line_containments_threshold_slider], outputs=[ output_line_from_region, image_inputs_lines_to_transcribe, inputs_lines_to_transcribe, gallery_inputs_lines_to_transcribe, temp_gallery_input, # Hide transcribe_button, image_inputs_lines_to_transcribe, image_placeholder_htr, control_htr, ], api_name=False, ) copy_textarea.click( fn=None, _js="""document.querySelector("#textarea_stepwise_3 > label > button").click()""", api_name=False, ) transcribe_button.click( custom_track.transcribe_text, inputs=[inputs_lines_to_transcribe], outputs=[ transcribed_text, transcribed_text_df_finish, mapping_dict, # Hide control_results_transcribe, image_placeholder_explore_results, ], api_name=False, ) clear_button.click( lambda: ( (shutil.rmtree("./vis_data") if os.path.exists("./vis_data") else None, None)[1], None, None, None, gr.update(visible=False), None, None, None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=True), None, gr.update(visible=False), gr.update(visible=False), gr.update(visible=True), gr.update(visible=True), ), inputs=[], outputs=[ vis_data_folder_placeholder, input_region_image, regions_cropped_gallery, input_region_from_gallery, control_line_segment, output_line_from_region, inputs_lines_to_transcribe, transcribed_text, control_htr, inputs_lines_to_transcribe, image_placeholder_htr, output_region_image, image_inputs_lines_to_transcribe, control_results_transcribe, image_placeholder_explore_results, image_placeholder_lines, ], api_name=False, ) SECRET_KEY = os.environ.get("AM_I_IN_A_DOCKER_CONTAINER", False) if SECRET_KEY: region_segment_button.click(fn=TrafficDataHandler.store_metric_data, inputs=region_segment_button_var)