# Utility functions for filtering the dataframe import pandas as pd import assets.text_content as tc import calendar from typing import Union, List from datetime import datetime current_year = str(datetime.now().year) def filter_cols(df): df = df[[ tc.MODEL_NAME, tc.CLEMSCORE, tc.INPUT, tc.OUTPUT, tc.LATENCY, tc.CONTEXT, tc.PARAMS, tc.RELEASE_DATE, tc.LICENSE ]] return df def convert_date_components_to_timestamp(year: str, month: str) -> int: """Convert year and month strings to timestamp.""" # Create a datetime object for the first day of the month date_str = f"{year}-{month:02d}-01" return int(pd.to_datetime(date_str).timestamp()) def filter_by_date(df: pd.DataFrame, start_year, start_month, end_year, end_month, date_column: str = tc.RELEASE_DATE) -> pd.DataFrame: """ Filter DataFrame by date range using separate year and month components. """ # All lists are passed at once, so set default values here instead of passing them in args- Overwritten by empty lists if not start_year: start_year = tc.START_YEAR if not end_year: end_year = current_year if not start_month: start_month = "January" if not end_month: end_month = "December" try: # Convert string inputs to integers for date creation start_timestamp = convert_date_components_to_timestamp( int(start_year), int(tc.MONTH_MAP[start_month]) ) end_timestamp = convert_date_components_to_timestamp( int(end_year), int(tc.MONTH_MAP[end_month]) ) # Convert the DataFrame's date column to timestamps for comparison date_timestamps = pd.to_datetime(df[date_column]).apply(lambda x: int(x.timestamp())) # Filter the DataFrame return df[ (date_timestamps >= start_timestamp) & (date_timestamps <= end_timestamp) ] except (ValueError, TypeError) as e: print(f"Error processing dates: {e}") return df # Return unfiltered DataFrame if there's an error def filter(df, language_list, parameters, input_price, output_price, multimodal, context, open_weight, start_year, start_month, end_year, end_month, license ): if not df.empty: # Check if df is non-empty df = df[df[tc.LANGS].apply(lambda x: all(lang in x for lang in language_list))] if not df.empty: df = df[(df[tc.DUMMY_PARAMS] >= parameters[0]) & (df[tc.DUMMY_PARAMS] <= parameters[1])] if not df.empty: # Check if df is non-empty df = df[(df[tc.INPUT] >= input_price[0]) & (df[tc.INPUT] <= input_price[1])] if not df.empty: # Check if df is non-empty df = df[(df[tc.OUTPUT] >= output_price[0]) & (df[tc.OUTPUT] <= output_price[1])] if not df.empty: # Check if df is non-empty if tc.TEXT in multimodal: df = df[(df[tc.SINGLE_IMG] == False) & (df[tc.MULT_IMG] == False) & (df[tc.AUDIO] == False) & (df[tc.VIDEO] == False) ] if tc.SINGLE_IMG in multimodal: df = df[df[tc.SINGLE_IMG] == True] if tc.MULT_IMG in multimodal: df = df[df[tc.MULT_IMG] == True] if tc.AUDIO in multimodal: df = df[df[tc.AUDIO] == True] if tc.VIDEO in multimodal: df = df[df[tc.VIDEO] == True] if not df.empty: # Check if df is non-empty # Convert 'Context Size (k)' to numeric, coercing errors to NaN context_size = pd.to_numeric(df['Context Size (k)'], errors='coerce').fillna(0) # Apply the filter df = df[(context_size >= context[0]) & (context_size <= context[1])] if not df.empty: # Check if df is non-empty if tc.OPEN in open_weight and tc.COMM not in open_weight: df = df[df[tc.OPEN_WEIGHT] == True] elif tc.COMM in open_weight and tc.OPEN not in open_weight: df = df[df[tc.OPEN_WEIGHT] == False] elif tc.OPEN not in open_weight and tc.COMM not in open_weight: # Return empty DataFrame with same columns df = pd.DataFrame(columns=df.columns) if not df.empty: # Check if df is non-empty df = df[df[tc.LICENSE_NAME].apply(lambda x: any(lic in x for lic in license))] df = filter_by_date(df, start_year, start_month, end_year, end_month, tc.TEMP_DATE) df = filter_cols(df) df = df.sort_values(by=tc.CLEMSCORE, ascending=False) return df # Return the filtered dataframe