from search_funcs.fast_bm25 import BM25 from search_funcs.clean_funcs import initial_clean, get_lemma_tokens#, stem_sentence from nltk import word_tokenize import nltk nltk.download('names') import gradio as gr import pandas as pd import os def prepare_input_data(in_file, text_column, clean="No", progress=gr.Progress()): filename = in_file.name # Import data df = read_file(filename) #df = pd.read_parquet(file_in.name) df_list = list(df[text_column].astype(str)) #df_list = df if clean == "Yes": df_list_clean = initial_clean(df_list) # Save to file if you have cleaned the data out_file_name = save_prepared_data(in_file, df_list_clean, df, text_column) #corpus = [word_tokenize(doc.lower()) for doc in df_list_clean] corpus = [word_tokenize(doc.lower()) for doc in progress.tqdm(df_list_clean, desc = "Tokenising text", unit = "rows")] else: #corpus = [word_tokenize(doc.lower()) for doc in df_list] corpus = [word_tokenize(doc.lower()) for doc in progress.tqdm(df_list, desc = "Tokenising text", unit = "rows")] out_file_name = None print("Finished data clean") if len(df_list) >= 20: message = "Data loaded" else: message = "Data loaded. Warning: dataset may be too short to get consistent search results." return corpus, message, df, out_file_name def get_file_path_end(file_path): # First, get the basename of the file (e.g., "example.txt" from "/path/to/example.txt") basename = os.path.basename(file_path) # Then, split the basename and its extension and return only the basename without the extension filename_without_extension, _ = os.path.splitext(basename) print(filename_without_extension) return filename_without_extension def save_prepared_data(in_file, prepared_text_list, in_df, in_column): # Check if the list and the dataframe have the same length if len(prepared_text_list) != len(in_df): raise ValueError("The length of 'prepared_text_list' and 'in_df' must match.") file_end = ".parquet" file_name = get_file_path_end(in_file.name) + "_cleaned" + file_end prepared_text_df = pd.DataFrame(data={in_column + "_cleaned":prepared_text_list}) # Drop original column from input file to reduce file size in_df = in_df.drop(in_column, axis = 1) prepared_df = pd.concat([in_df, prepared_text_df], axis = 1) if file_end == ".csv": prepared_df.to_csv(file_name) elif file_end == ".parquet": prepared_df.to_parquet(file_name) else: file_name = None return file_name def prepare_bm25(corpus, k1=1.5, b = 0.75, alpha=-5): #bm25.save("saved_df_bm25") #bm25 = BM25.load(re.sub(r'\.pkl$', '', file_in.name)) print("Preparing BM25 corpus") global bm25 bm25 = BM25(corpus, k1=k1, b=b, alpha=alpha) message = "Search parameters loaded." print(message) return message def convert_query_to_tokens(free_text_query, clean="No"): ''' Split open text query into tokens and then lemmatise to get the core of the word ''' if clean=="Yes": split_query = word_tokenize(free_text_query.lower()) out_query = get_lemma_tokens(split_query) #out_query = stem_sentence(free_text_query) else: split_query = word_tokenize(free_text_query.lower()) out_query = split_query return out_query def bm25_search(free_text_query, in_no_search_results, original_data, text_column, clean = "No", in_join_file = None, in_join_column = "", search_df_join_column = ""): # Prepare query if (clean == "Yes") | (text_column.endswith("_cleaned")): token_query = convert_query_to_tokens(free_text_query, clean="Yes") else: token_query = convert_query_to_tokens(free_text_query, clean="No") print(token_query) # Perform search print("Searching") results_index, results_text, results_scores = bm25.extract_documents_and_scores(token_query, bm25.corpus, n=in_no_search_results) #bm25.corpus #original_data[text_column] if not results_index: return "No search results found", None, token_query print("Search complete") # Prepare results and export joined_texts = [' '.join(inner_list) for inner_list in results_text] results_df = pd.DataFrame(data={"index": results_index, "search_text": joined_texts, "search_score_abs": results_scores}) results_df['search_score_abs'] = abs(round(results_df['search_score_abs'], 2)) results_df_out = results_df[['index', 'search_text', 'search_score_abs']].merge(original_data,left_on="index", right_index=True, how="left")#.drop("index", axis=1) # Join on additional files if in_join_file: join_filename = in_join_file.name # Import data join_df = read_file(join_filename) join_df[in_join_column] = join_df[in_join_column].astype(str).str.replace("\.0$","", regex=True) results_df_out[search_df_join_column] = results_df_out[search_df_join_column].astype(str).str.replace("\.0$","", regex=True) results_df_out = results_df_out.merge(join_df,left_on=search_df_join_column, right_on=in_join_column, how="left").drop(in_join_column, axis=1) # Reorder results by score results_df_out = results_df_out.sort_values('search_score_abs', ascending=False) # Out file results_df_name = "search_result.csv" results_df_out.to_csv(results_df_name, index= None) results_first_text = results_df_out[text_column].iloc[0] print("Returning results") return results_first_text, results_df_name, token_query def detect_file_type(filename): """Detect the file type based on its extension.""" if (filename.endswith('.csv')) | (filename.endswith('.csv.gz')) | (filename.endswith('.zip')): return 'csv' elif filename.endswith('.xlsx'): return 'xlsx' elif filename.endswith('.parquet'): return 'parquet' else: raise ValueError("Unsupported file type.") def read_file(filename): """Read the file based on its detected type.""" file_type = detect_file_type(filename) if file_type == 'csv': return pd.read_csv(filename, low_memory=False).reset_index().drop(["index", "Unnamed: 0"], axis=1, errors="ignore") elif file_type == 'xlsx': return pd.read_excel(filename).reset_index().drop(["index", "Unnamed: 0"], axis=1, errors="ignore") elif file_type == 'parquet': return pd.read_parquet(filename).reset_index().drop(["index", "Unnamed: 0"], axis=1, errors="ignore") def put_columns_in_df(in_file, in_column): ''' When file is loaded, update the column dropdown choices and change 'clean data' dropdown option to 'no'. ''' new_choices = [] concat_choices = [] df = read_file(in_file.name) new_choices = list(df.columns) print(new_choices) concat_choices.extend(new_choices) return gr.Dropdown(choices=concat_choices), gr.Dropdown(value="No", choices = ["Yes", "No"]),\ gr.Dropdown(choices=concat_choices) def put_columns_in_join_df(in_file, in_column): ''' When file is loaded, update the column dropdown choices and change 'clean data' dropdown option to 'no'. ''' print("in_column") new_choices = [] concat_choices = [] df = read_file(in_file.name) new_choices = list(df.columns) print(new_choices) concat_choices.extend(new_choices) return gr.Dropdown(choices=concat_choices) def dummy_function(gradio_component): """ A dummy function that exists just so that dropdown updates work correctly. """ return None def display_info(info_component): gr.Info(info_component) # %% # ## Gradio app - BM25 search block = gr.Blocks(theme = gr.themes.Base()) with block: corpus_state = gr.State() data_state = gr.State(pd.DataFrame()) in_k1_info = gr.State("""k1: Constant used for influencing the term frequency saturation. After saturation is reached, additional presence for the term adds a significantly less additional score. According to [1]_, experiments suggest that 1.2 < k1 < 2 yields reasonably good results, although the optimal value depends on factors such as the type of documents or queries. Information taken from https://github.com/Inspirateur/Fast-BM25""") in_b_info = gr.State("""b: Constant used for influencing the effects of different document lengths relative to average document length. When b is bigger, lengthier documents (compared to average) have more impact on its effect. According to [1]_, experiments suggest that 0.5 < b < 0.8 yields reasonably good results, although the optimal value depends on factors such as the type of documents or queries. Information taken from https://github.com/Inspirateur/Fast-BM25""") in_alpha_info = gr.State("""alpha: IDF cutoff, terms with a lower idf score than alpha will be dropped. A higher alpha will lower the accuracy of BM25 but increase performance. Information taken from https://github.com/Inspirateur/Fast-BM25""") in_no_search_info = gr.State("""Search results number: Maximum number of search results that will be returned. Bear in mind that if the alpha value is greater than the minimum, common words will be removed from the dataset, and so the number of search results returned may be lower than this value.""") in_clean_info = gr.State("""Clean text: Clean the input text and search query. The function will try to remove email components and tags, and then will 'stem' the words. I.e. it will remove the endings of words (e.g. smashed becomes smash) so that the search engine is looking for the common 'core' of words between the query and dataset.""") gr.Markdown( """ # Fast text search Enter a text query below to search through a text data column and find relevant entries. Your data should contain at least 20 entries for the search to return results. """) with gr.Tab(label="Search your data"): with gr.Accordion(label = "Load in data", open=True): in_corpus = gr.File(label="Upload your search data here") with gr.Row(): in_column = gr.Dropdown(label="Enter the name of the text column in the data file to search") load_data_button = gr.Button(value="Load data") with gr.Row(): load_finished_message = gr.Textbox(label="Load progress", scale = 2) with gr.Accordion(label = "Search data", open=True): with gr.Row(): in_query = gr.Textbox(label="Enter your search term") mod_query = gr.Textbox(label="Cleaned search term (the terms that are passed to the search engine)") search_button = gr.Button(value="Search text") with gr.Row(): output_single_text = gr.Textbox(label="Top result") output_file = gr.File(label="File output") with gr.Tab(label="Advanced options"): with gr.Accordion(label="Data load / save options", open = False): #with gr.Row(): in_clean_data = gr.Dropdown(label = "Clean text during load (remove tags, stem words). This will take some time!", value="No", choices=["Yes", "No"]) #save_clean_data_button = gr.Button(value = "Save loaded data to file", scale = 1) with gr.Accordion(label="Search options", open = False): with gr.Row(): in_k1 = gr.Slider(label = "k1 value", value = 1.5, minimum = 0.1, maximum = 5, step = 0.1, scale = 3) in_k1_button = gr.Button(value = "k1 value info", scale = 1) with gr.Row(): in_b = gr.Slider(label = "b value", value = 0.75, minimum = 0.1, maximum = 5, step = 0.05, scale = 3) in_b_button = gr.Button(value = "b value info", scale = 1) with gr.Row(): in_alpha = gr.Slider(label = "alpha value / IDF cutoff", value = -5, minimum = -5, maximum = 10, step = 1, scale = 3) in_alpha_button = gr.Button(value = "alpha value info", scale = 1) with gr.Row(): in_no_search_results = gr.Slider(label="Maximum number of search results to return", value = 100000, minimum=10, maximum=100000, step=10, scale = 3) in_no_search_results_button = gr.Button(value = "Search results number info", scale = 1) with gr.Row(): in_search_param_button = gr.Button(value="Load search parameters (Need to click this if you changed anything above)") with gr.Accordion(label = "Join on additional dataframes to results", open = False): in_join_file = gr.File(label="Upload your data to join here") in_join_column = gr.Dropdown(label="Column to join in new data frame") search_df_join_column = gr.Dropdown(label="Column to join in search data frame") in_search_param_button.click(fn=prepare_bm25, inputs=[corpus_state, in_k1, in_b, in_alpha], outputs=[load_finished_message]) # --- in_k1_button.click(display_info, inputs=in_k1_info) in_b_button.click(display_info, inputs=in_b_info) in_alpha_button.click(display_info, inputs=in_alpha_info) in_no_search_results_button.click(display_info, inputs=in_no_search_info) in_corpus.upload(put_columns_in_df, inputs=[in_corpus, in_column], outputs=[in_column, in_clean_data, search_df_join_column]) in_join_file.upload(put_columns_in_join_df, inputs=[in_join_file, in_join_column], outputs=[in_join_column]) # Load in the data load_data_button.click(fn=prepare_input_data, inputs=[in_corpus, in_column, in_clean_data], outputs=[corpus_state, load_finished_message, data_state, output_file]).\ then(fn=prepare_bm25, inputs=[corpus_state, in_k1, in_b, in_alpha], outputs=[load_finished_message]).\ then(fn=put_columns_in_df, inputs=[in_corpus, in_column], outputs=[in_column, in_clean_data, search_df_join_column]) #save_clean_data_button.click(fn=save_prepared_data, inputs=[in_corpus, corpus_state, data_state, in_column], outputs=[output_file]) # Search functions on click or enter search_button.click(fn=bm25_search, inputs=[in_query, in_no_search_results, data_state, in_column, in_clean_data, in_join_file, in_join_column, search_df_join_column], outputs=[output_single_text, output_file, mod_query], api_name="search") in_query.submit(fn=bm25_search, inputs=[in_query, in_no_search_results, data_state, in_column, in_clean_data, in_join_file, in_join_column, search_df_join_column], outputs=[output_single_text, output_file, mod_query]) # Dummy functions just to get dropdowns to work correctly with Gradio 3.50 in_column.change(dummy_function, in_column, None) search_df_join_column.change(dummy_function, search_df_join_column, None) in_join_column.change(dummy_function, in_join_column, None) block.queue().launch(debug=True)