| import streamlit as st |
| st.set_page_config(layout="wide") |
| import numpy as np |
| import pandas as pd |
| from rapidfuzz import process, fuzz |
| from collections import Counter |
| from pymongo.mongo_client import MongoClient |
| from pymongo.server_api import ServerApi |
| from datetime import datetime |
|
|
| def init_conn(): |
| |
| uri = st.secrets['mongo_uri'] |
| client = MongoClient(uri, retryWrites=True, serverSelectionTimeoutMS=500000) |
| db = client['Contest_Information'] |
|
|
| return db |
| |
| def grab_contest_names(db, sport): |
| collection = db[f'{sport}_contest_info'] |
| cursor = collection.find() |
|
|
| curr_info = pd.DataFrame(list(cursor)).drop('_id', axis=1) |
| curr_info['Date'] = pd.to_datetime(curr_info['Date'].sort_values(ascending = False)) |
| curr_info['Date'] = curr_info['Date'].dt.strftime('%Y-%m-%d') |
| contest_names = curr_info['Contest Name'] |
| contest_id_map = dict(zip(curr_info['Contest Name'], curr_info['Contest ID'])) |
| |
| return contest_names, contest_id_map, curr_info |
|
|
| db = init_conn() |
|
|
| |
| from global_func.load_contest_file import load_contest_file |
| from global_func.create_player_exposures import create_player_exposures |
| from global_func.create_stack_exposures import create_stack_exposures |
| from global_func.create_stack_size_exposures import create_stack_size_exposures |
| from global_func.create_general_exposures import create_general_exposures |
| from global_func.grab_contest_data import grab_contest_data |
|
|
| def is_valid_input(file): |
| if isinstance(file, pd.DataFrame): |
| return not file.empty |
| else: |
| return file is not None |
|
|
| player_exposure_format = {'Exposure Overall': '{:.2%}', 'Exposure Top 1%': '{:.2%}', 'Exposure Top 5%': '{:.2%}', 'Exposure Top 10%': '{:.2%}', 'Exposure Top 20%': '{:.2%}'} |
|
|
| tab1, tab2 = st.tabs(["Data Load", "Contest Analysis"]) |
| with tab1: |
| col1, col2 = st.columns(2) |
|
|
| with col1: |
| if st.button('Clear data', key='reset1'): |
| st.session_state.clear() |
| search_options, sport_options, date_options, game_options = st.columns(4) |
| with search_options: |
| parse_type = st.selectbox("Manual upload or DB search?", ['DB Search', 'Manual'], key='parse_type') |
| with sport_options: |
| sport_select = st.selectbox("Select Sport", ['MLB', 'MMA', 'GOLF'], key='sport_select') |
| contest_names, contest_id_map, curr_info = grab_contest_names(db, sport_select) |
| |
| with date_options: |
| date_list = curr_info['Date'].sort_values(ascending=False).unique() |
| date_list = date_list[date_list != pd.Timestamp.today().strftime('%Y-%m-%d')] |
| date_select = st.selectbox("Select Date", date_list, key='date_select') |
| date_select2 = (pd.to_datetime(date_select) + pd.Timedelta(days=1)).strftime('%Y-%m-%d') |
| |
| name_parse = curr_info[curr_info['Date'] == date_select]['Contest Name'].reset_index(drop=True) |
| date_select = date_select.replace('-', '') |
| date_select2 = date_select2.replace('-', '') |
| with game_options: |
| type_var = st.selectbox("Select Game Type", ['Classic', 'Showdown'], key='type_var') |
|
|
| contest_name_var = st.selectbox("Select Contest to load", name_parse) |
| if parse_type == 'DB Search': |
| if 'Contest_file_helper' in st.session_state: |
| del st.session_state['Contest_file_helper'] |
| if 'Contest_file' in st.session_state: |
| del st.session_state['Contest_file'] |
| if 'Contest_file' not in st.session_state: |
| if st.button('Load Contest Data', key='load_contest_data'): |
| st.session_state['Contest_file'] = grab_contest_data(sport_select, contest_name_var, contest_id_map, date_select, date_select2) |
| else: |
| pass |
| with col2: |
| st.info(f"If you are manually loading and do not have the results CSV for the contest you selected, you can find it here: https://www.draftkings.com/contest/gamecenter/{contest_id_map[contest_name_var]}#/") |
| if parse_type == 'Manual': |
| if 'Contest_file_helper' in st.session_state: |
| del st.session_state['Contest_file_helper'] |
| if 'Contest_file' in st.session_state: |
| del st.session_state['Contest_file'] |
| if 'Contest_file' not in st.session_state: |
| st.session_state['Contest_upload'] = st.file_uploader("Upload Contest File (CSV or Excel)", type=['csv', 'xlsx', 'xls']) |
| st.session_state['Contest_file'] = pd.read_csv(st.session_state['Contest_upload']) |
| st.session_state['Contest_file_helper'] = grab_contest_data(sport_select, contest_name_var, contest_id_map, date_select, date_select2) |
| else: |
| pass |
|
|
| if 'Contest_file' in st.session_state: |
| if 'Contest_file_helper' in st.session_state: |
| st.table(st.session_state['Contest_file'].head(10)) |
| st.session_state['Contest'], st.session_state['ownership_df'], st.session_state['actual_df'], st.session_state['salary_df'], st.session_state['team_df'], st.session_state['pos_df'], st.session_state['entry_list'], check_lineups = load_contest_file(st.session_state['Contest_file'], st.session_state['Contest_file_helper'], sport_select) |
| else: |
| st.table(st.session_state['Contest_file'].head(10)) |
| st.session_state['Contest'], st.session_state['ownership_df'], st.session_state['actual_df'], st.session_state['salary_df'], st.session_state['team_df'], st.session_state['pos_df'], st.session_state['entry_list'], check_lineups = load_contest_file(st.session_state['Contest_file'], None, sport_select) |
| st.session_state['Contest'] = st.session_state['Contest'].dropna(how='all') |
| st.session_state['Contest'] = st.session_state['Contest'].reset_index(drop=True) |
| if st.session_state['Contest'] is not None: |
| st.success('Contest file loaded successfully!') |
| st.dataframe(st.session_state['Contest'].head(100)) |
| |
| if 'Contest_file' in st.session_state: |
| st.session_state['ownership_dict'] = dict(zip(st.session_state['ownership_df']['Player'], st.session_state['ownership_df']['Own'])) |
| st.session_state['actual_dict'] = dict(zip(st.session_state['actual_df']['Player'], st.session_state['actual_df']['FPTS'])) |
| st.session_state['salary_dict'] = dict(zip(st.session_state['salary_df']['Player'], st.session_state['salary_df']['Salary'])) |
| st.session_state['team_dict'] = dict(zip(st.session_state['team_df']['Player'], st.session_state['team_df']['Team'])) |
| st.session_state['pos_dict'] = dict(zip(st.session_state['pos_df']['Player'], st.session_state['pos_df']['Pos'])) |
|
|
| st.write(st.session_state['salary_dict']) |
|
|
| with tab2: |
| excluded_cols = ['BaseName', 'EntryCount'] |
| if 'Contest' in st.session_state: |
| player_columns = [col for col in st.session_state['Contest'].columns if col not in excluded_cols] |
| for col in player_columns: |
| st.session_state['Contest'][col] = st.session_state['Contest'][col].astype(str) |
| |
| |
| map_dict = { |
| 'pos_map': st.session_state['pos_dict'], |
| 'team_map': st.session_state['team_dict'], |
| 'salary_map': st.session_state['salary_dict'], |
| 'own_map': st.session_state['ownership_dict'], |
| 'own_percent_rank': dict(zip(st.session_state['ownership_df']['Player'], st.session_state['ownership_df']['Own'].rank(pct=True))) |
| } |
| |
| working_df = st.session_state['Contest'].copy() |
|
|
| if type_var == 'Classic': |
| working_df['stack'] = working_df.apply( |
| lambda row: Counter( |
| map_dict['team_map'].get(player, '') for player in row[4:] |
| if map_dict['team_map'].get(player, '') != '' |
| ).most_common(1)[0][0] if any(map_dict['team_map'].get(player, '') for player in row[4:]) else '', |
| axis=1 |
| ) |
| working_df['stack_size'] = working_df.apply( |
| lambda row: Counter( |
| map_dict['team_map'].get(player, '') for player in row[4:] |
| if map_dict['team_map'].get(player, '') != '' |
| ).most_common(1)[0][1] if any(map_dict['team_map'].get(player, '') for player in row[4:]) else '', |
| axis=1 |
| ) |
| working_df['salary'] = working_df.apply(lambda row: sum(map_dict['salary_map'].get(player, 0) for player in row), axis=1) |
| working_df['actual_fpts'] = working_df.apply(lambda row: sum(st.session_state['actual_dict'].get(player, 0) for player in row), axis=1) |
| working_df['actual_own'] = working_df.apply(lambda row: sum(st.session_state['ownership_dict'].get(player, 0) for player in row), axis=1) |
| working_df['sorted'] = working_df[player_columns].apply( |
| lambda row: ','.join(sorted(row.values)), |
| axis=1 |
| ) |
| working_df['dupes'] = working_df.groupby('sorted').transform('size') |
| working_df = working_df.reset_index() |
| working_df['percentile_finish'] = working_df['index'].rank(pct=True) |
| working_df['finish'] = working_df['index'] |
| working_df = working_df.drop(['sorted', 'index'], axis=1) |
| st.session_state['field_player_frame'] = create_player_exposures(working_df, player_columns) |
| st.session_state['field_stack_frame'] = create_stack_exposures(working_df) |
|
|
| with st.expander("Info and filters"): |
| if st.button('Clear data', key='reset3'): |
| st.session_state.clear() |
| with st.form(key='filter_form'): |
| entry_parse_var = st.selectbox("Do you want to view a specific player(s) or a group of players?", ['All', 'Specific']) |
| entry_names = st.multiselect("Select players", options=st.session_state['entry_list'], default=[]) |
| submitted = st.form_submit_button("Submit") |
| if submitted: |
| if 'player_frame' in st.session_state: |
| del st.session_state['player_frame'] |
| if 'stack_frame' in st.session_state: |
| del st.session_state['stack_frame'] |
| |
| if entry_parse_var == 'Specific' and entry_names: |
| working_df = working_df[working_df['BaseName'].isin(entry_names)] |
| |
| |
| if 'current_page' not in st.session_state: |
| st.session_state.current_page = 1 |
|
|
| |
| rows_per_page = 500 |
| total_rows = len(working_df) |
| total_pages = (total_rows + rows_per_page - 1) // rows_per_page |
|
|
| |
| pagination_cols = st.columns([4, 1, 1, 1, 4]) |
| with pagination_cols[1]: |
| if st.button(f"Previous Page"): |
| if st.session_state['current_page'] > 1: |
| st.session_state.current_page -= 1 |
| else: |
| st.session_state.current_page = 1 |
| if 'player_frame' in st.session_state: |
| del st.session_state['player_frame'] |
| if 'stack_frame' in st.session_state: |
| del st.session_state['stack_frame'] |
|
|
| with pagination_cols[3]: |
| if st.button(f"Next Page"): |
| st.session_state.current_page += 1 |
| if 'player_frame' in st.session_state: |
| del st.session_state['player_frame'] |
| if 'stack_frame' in st.session_state: |
| del st.session_state['stack_frame'] |
|
|
| |
| start_idx = (st.session_state.current_page - 1) * rows_per_page |
| end_idx = min((st.session_state.current_page) * rows_per_page, total_rows) |
| st.dataframe( |
| working_df.iloc[start_idx:end_idx].style |
| .background_gradient(axis=0) |
| .background_gradient(cmap='RdYlGn') |
| .format(precision=2), |
| height=500, |
| use_container_width=True, |
| hide_index=True |
| ) |
|
|
| with st.container(): |
| tab1, tab2, tab3, tab4 = st.tabs(['Player Used Info', 'Stack Used Info', 'Stack Size Info', 'General Info']) |
| with tab1: |
| col1, col2 = st.columns(2) |
| with col1: |
| pos_var = st.selectbox("Which position(s) would you like to view?", ['All', 'Specific'], key='pos_var') |
| with col2: |
| if pos_var == 'Specific': |
| pos_select = st.multiselect("Select your position(s)", ['P', 'C', '1B', '2B', '3B', 'SS', 'OF'], key='pos_select') |
| else: |
| pos_select = None |
|
|
| if entry_parse_var == 'All': |
|
|
| st.session_state['player_frame'] = create_player_exposures(working_df, player_columns) |
| hold_frame = st.session_state['player_frame'].copy() |
| if sport_select == 'GOLF': |
| hold_frame['Pos'] = 'G' |
| else: |
| hold_frame['Pos'] = hold_frame['Player'].map(map_dict['pos_map']) |
| st.session_state['player_frame'].insert(1, 'Pos', hold_frame['Pos']) |
| st.session_state['player_frame'] = st.session_state['player_frame'].dropna(subset=['Pos']) |
| if pos_select: |
| position_mask = st.session_state['player_frame']['Pos'].apply(lambda x: any(pos in x for pos in pos_select)) |
| st.session_state['player_frame'] = st.session_state['player_frame'][position_mask] |
| st.dataframe(st.session_state['player_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['player_frame'].iloc[:, 2:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| else: |
|
|
| st.session_state['player_frame'] = create_player_exposures(working_df, player_columns, entry_names) |
| hold_frame = st.session_state['player_frame'].copy() |
| hold_frame['Pos'] = hold_frame['Player'].map(map_dict['pos_map']) |
| st.session_state['player_frame'].insert(1, 'Pos', hold_frame['Pos']) |
| st.session_state['player_frame'] = st.session_state['player_frame'].dropna(subset=['Pos']) |
| if pos_select: |
| position_mask = st.session_state['player_frame']['Pos'].apply(lambda x: any(pos in x for pos in pos_select)) |
| st.session_state['player_frame'] = st.session_state['player_frame'][position_mask] |
| st.dataframe(st.session_state['player_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['player_frame'].iloc[:, 2:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| with tab2: |
|
|
| if entry_parse_var == 'All': |
| st.session_state['stack_frame'] = create_stack_exposures(working_df) |
| st.dataframe(st.session_state['stack_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['stack_frame'].iloc[:, 1:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| else: |
| st.session_state['stack_frame'] = create_stack_exposures(working_df, entry_names) |
| st.dataframe(st.session_state['stack_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['stack_frame'].iloc[:, 1:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| with tab3: |
| |
| if entry_parse_var == 'All': |
| st.session_state['stack_size_frame'] = create_stack_size_exposures(working_df) |
| st.dataframe(st.session_state['stack_size_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['stack_size_frame'].iloc[:, 1:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| else: |
| st.session_state['stack_size_frame'] = create_stack_size_exposures(working_df, entry_names) |
| st.dataframe(st.session_state['stack_size_frame']. |
| sort_values(by='Exposure Overall', ascending=False). |
| style.background_gradient(cmap='RdYlGn'). |
| format(formatter='{:.2%}', subset=st.session_state['stack_size_frame'].iloc[:, 1:].select_dtypes(include=['number']).columns), |
| hide_index=True) |
| |
| with tab4: |
| |
| if entry_parse_var == 'All': |
| st.session_state['general_frame'] = create_general_exposures(working_df) |
| st.dataframe(st.session_state['general_frame'].style.background_gradient(cmap='RdYlGn', axis=1).format(precision=2), hide_index=True) |
| |
| else: |
| st.session_state['general_frame'] = create_general_exposures(working_df, entry_names) |
| st.dataframe(st.session_state['general_frame'].style.background_gradient(cmap='RdYlGn', axis=1).format(precision=2), hide_index=True) |
|
|
|
|
