import streamlit as st st.set_page_config(layout="wide") import numpy as np import pandas as pd import gspread import pymongo import time @st.cache_resource def init_conn(): uri = st.secrets['mongo_uri'] client = pymongo.MongoClient(uri, retryWrites=True, serverSelectionTimeoutMS=500000) return client client = init_conn() percentages_format = {'Exposure': '{:.2%}'} freq_format = {'Exposure': '{:.2%}', 'Proj Own': '{:.2%}', 'Edge': '{:.2%}'} dk_columns = ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own'] fd_columns = ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own'] @st.cache_data(ttl = 599) def init_DK_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"DK_{sport}_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] DK_seed = raw_display.to_numpy() return DK_seed @st.cache_data(ttl = 599) def init_DK_secondary_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"DK_{sport}_Secondary_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] DK_second_seed = raw_display.to_numpy() return DK_second_seed @st.cache_data(ttl = 599) def init_DK_auxiliary_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"DK_{sport}_Auxiliary_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] DK_auxiliary_seed = raw_display.to_numpy() return DK_auxiliary_seed @st.cache_data(ttl = 599) def init_FD_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"FD_{sport}_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] FD_seed = raw_display.to_numpy() return FD_seed @st.cache_data(ttl = 599) def init_FD_secondary_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"FD_{sport}_Secondary_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] FD_second_seed = raw_display.to_numpy() return FD_second_seed @st.cache_data(ttl = 599) def init_FD_auxiliary_seed_frames(sport, split): if sport == 'NFL': db = client["NFL_Database"] elif sport == 'NBA': db = client["NBA_DFS"] collection = db[f"FD_{sport}_Auxiliary_SD_seed_frame"] cursor = collection.find().limit(split) raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']] FD_auxiliary_seed = raw_display.to_numpy() return FD_auxiliary_seed @st.cache_data(ttl = 599) def init_baselines(sport): if sport == 'NFL': db = client["NFL_Database"] collection = db['DK_SD_NFL_ROO'] cursor = collection.find() raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['Player', 'Position', 'Team', 'Opp', 'Salary', 'Floor', 'Median', 'Ceiling', 'Top_finish', 'Top_5_finish', 'Top_10_finish', '20+%', '2x%', '3x%', '4x%', 'Own', 'Small_Field_Own', 'Large_Field_Own', 'Cash_Field_Own', 'CPT_Own', 'LevX', 'version', 'slate', 'timestamp', 'player_id', 'site']] raw_display['Small_Field_Own'] = raw_display['Large_Field_Own'] raw_display['small_CPT_Own_raw'] = (raw_display['Small_Field_Own'] / 2) * ((100 - (100-raw_display['Small_Field_Own']))/100) small_cpt_own_var = 300 / raw_display['small_CPT_Own_raw'].sum() raw_display['small_CPT_Own'] = raw_display['small_CPT_Own_raw'] * small_cpt_own_var raw_display['cpt_Median'] = raw_display['Median'] * 1.25 raw_display['STDev'] = raw_display['Median'] / 4 raw_display['CPT_STDev'] = raw_display['cpt_Median'] / 4 dk_raw = raw_display.dropna(subset=['Median']) collection = db['FD_SD_NFL_ROO'] cursor = collection.find() raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['Player', 'Position', 'Team', 'Opp', 'Salary', 'Floor', 'Median', 'Ceiling', 'Top_finish', 'Top_5_finish', 'Top_10_finish', '20+%', '2x%', '3x%', '4x%', 'Own', 'Small_Field_Own', 'Large_Field_Own', 'Cash_Field_Own', 'CPT_Own', 'LevX', 'version', 'slate', 'timestamp', 'player_id', 'site']] raw_display['Small_Field_Own'] = raw_display['Large_Field_Own'] raw_display['small_CPT_Own'] = raw_display['CPT_Own'] raw_display['cpt_Median'] = raw_display['Median'] raw_display['STDev'] = raw_display['Median'] / 4 raw_display['CPT_STDev'] = raw_display['cpt_Median'] / 4 fd_raw = raw_display.dropna(subset=['Median']) elif sport == 'NBA': db = client["NBA_DFS"] collection = db['Player_SD_Range_Of_Outcomes'] cursor = collection.find() raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['Player', 'Minutes Proj', 'Position', 'Team', 'Opp', 'Salary', 'Floor', 'Median', 'Ceiling', 'Top_finish', 'Top_5_finish', 'Top_10_finish', '20+%', '4x%', '5x%', '6x%', 'GPP%', 'Own', 'Small_Own', 'Large_Own', 'Cash_Own', 'CPT_Own', 'LevX', 'ValX', 'site', 'version', 'slate', 'timestamp', 'player_id']] raw_display = raw_display[raw_display['site'] == 'Draftkings'] raw_display['Small_Field_Own'] = raw_display['Small_Own'] raw_display['small_CPT_Own_raw'] = (raw_display['Small_Field_Own'] / 2) * ((100 - (100-raw_display['Small_Field_Own']))/100) small_cpt_own_var = 300 / raw_display['small_CPT_Own_raw'].sum() raw_display['small_CPT_Own'] = raw_display['small_CPT_Own_raw'] * small_cpt_own_var raw_display['cpt_Median'] = raw_display['Median'] * 1.25 raw_display['STDev'] = raw_display['Median'] / 4 raw_display['CPT_STDev'] = raw_display['cpt_Median'] / 4 dk_raw = raw_display.dropna(subset=['Median']) collection = db['Player_SD_Range_Of_Outcomes'] cursor = collection.find() raw_display = pd.DataFrame(list(cursor)) raw_display = raw_display[['Player', 'Minutes Proj', 'Position', 'Team', 'Opp', 'Salary', 'Floor', 'Median', 'Ceiling', 'Top_finish', 'Top_5_finish', 'Top_10_finish', '20+%', '4x%', '5x%', '6x%', 'GPP%', 'Own', 'Small_Own', 'Large_Own', 'Cash_Own', 'CPT_Own', 'LevX', 'ValX', 'site', 'version', 'slate', 'timestamp', 'player_id']] raw_display = raw_display[raw_display['site'] == 'Fanduel'] raw_display['Small_Field_Own'] = raw_display['Large_Own'] raw_display['small_CPT_Own'] = raw_display['CPT_Own'] raw_display['cpt_Median'] = raw_display['Median'] raw_display['STDev'] = raw_display['Median'] / 4 raw_display['CPT_STDev'] = raw_display['cpt_Median'] / 4 fd_raw = raw_display.dropna(subset=['Median']) return dk_raw, fd_raw @st.cache_data def convert_df(array): array = pd.DataFrame(array, columns=column_names) return array.to_csv().encode('utf-8') @st.cache_data def calculate_DK_value_frequencies(np_array): unique, counts = np.unique(np_array[:, :6], return_counts=True) frequencies = counts / len(np_array) # Normalize by the number of rows combined_array = np.column_stack((unique, frequencies)) return combined_array @st.cache_data def calculate_FD_value_frequencies(np_array): unique, counts = np.unique(np_array[:, :5], return_counts=True) frequencies = counts / len(np_array) # Normalize by the number of rows combined_array = np.column_stack((unique, frequencies)) return combined_array @st.cache_data def sim_contest(Sim_size, seed_frame, maps_dict, Contest_Size): SimVar = 1 Sim_Winners = [] # Pre-vectorize functions vec_projection_map = np.vectorize(maps_dict['Projection_map'].__getitem__) vec_cpt_projection_map = np.vectorize(maps_dict['cpt_projection_map'].__getitem__) vec_stdev_map = np.vectorize(maps_dict['STDev_map'].__getitem__) vec_cpt_stdev_map = np.vectorize(maps_dict['cpt_STDev_map'].__getitem__) st.write('Simulating contest on frames') while SimVar <= Sim_size: fp_random = seed_frame[np.random.choice(seed_frame.shape[0], Contest_Size)] sample_arrays1 = np.c_[ fp_random, np.sum(np.random.normal( loc=np.concatenate([ vec_cpt_projection_map(fp_random[:, 0:1]), # Apply cpt_projection_map to first column vec_projection_map(fp_random[:, 1:-7]) # Apply original projection to remaining columns ], axis=1), scale=np.concatenate([ vec_cpt_stdev_map(fp_random[:, 0:1]), # Apply cpt_projection_map to first column vec_stdev_map(fp_random[:, 1:-7]) # Apply original projection to remaining columns ], axis=1)), axis=1) ] sample_arrays = sample_arrays1 final_array = sample_arrays[sample_arrays[:, 7].argsort()[::-1]] best_lineup = final_array[final_array[:, -1].argsort(kind='stable')[::-1][:1]] Sim_Winners.append(best_lineup) SimVar += 1 return Sim_Winners dk_raw, fd_raw = init_baselines('NFL') tab1, tab2 = st.tabs(['Contest Sims', 'Data Export']) with tab2: col1, col2 = st.columns([1, 7]) with col1: if st.button("Load/Reset Data", key='reset1'): st.cache_data.clear() for key in st.session_state.keys(): del st.session_state[key] dk_raw, fd_raw = init_baselines('NFL') sport_var1 = st.radio("What sport are you working with?", ('NFL', 'NBA'), key='sport_var1') slate_var1 = st.radio("Which data are you loading?", ('Showdown', 'Secondary Showdown', 'Auxiliary Showdown'), key='slate_var1') sharp_split_var = st.number_input("How many lineups do you want?", value=10000, max_value=500000, min_value=10000, step=10000) site_var1 = st.radio("What site are you working with?", ('Draftkings', 'Fanduel'), key='site_var1') if site_var1 == 'Draftkings': team_var1 = st.radio("Do you want a frame with specific teams?", ('Full Slate', 'Specific Teams'), key='team_var1') if team_var1 == 'Specific Teams': team_var2 = st.multiselect('Which teams do you want?', options = dk_raw['Team'].unique()) elif team_var1 == 'Full Slate': team_var2 = dk_raw.Team.values.tolist() stack_var1 = st.radio("Do you want a frame with specific stack sizes?", ('Full Slate', 'Specific Stack Sizes'), key='stack_var1') if stack_var1 == 'Specific Stack Sizes': stack_var2 = st.multiselect('Which stack sizes do you want?', options = [5, 4, 3, 2, 1, 0]) elif stack_var1 == 'Full Slate': stack_var2 = [5, 4, 3, 2, 1, 0] elif site_var1 == 'Fanduel': team_var1 = st.radio("Do you want a frame with specific teams?", ('Full Slate', 'Specific Teams'), key='team_var1') if team_var1 == 'Specific Teams': team_var2 = st.multiselect('Which teams do you want?', options = fd_raw['Team'].unique()) elif team_var1 == 'Full Slate': team_var2 = fd_raw.Team.values.tolist() stack_var1 = st.radio("Do you want a frame with specific stack sizes?", ('Full Slate', 'Specific Stack Sizes'), key='stack_var1') if stack_var1 == 'Specific Stack Sizes': stack_var2 = st.multiselect('Which stack sizes do you want?', options = [4, 3, 2, 1, 0]) elif stack_var1 == 'Full Slate': stack_var2 = [4, 3, 2, 1, 0] if st.button("Prepare data export", key='data_export'): if 'working_seed' in st.session_state: data_export = st.session_state.working_seed.copy() elif 'working_seed' not in st.session_state: if site_var1 == 'Draftkings': if slate_var1 == 'Showdown': st.session_state.working_seed = init_DK_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_DK_secondary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_DK_auxiliary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) raw_baselines = dk_raw column_names = dk_columns elif site_var1 == 'Fanduel': if slate_var1 == 'Showdown': st.session_state.working_seed = init_FD_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_FD_secondary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_FD_auxiliary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) raw_baselines = fd_raw column_names = fd_columns data_export = st.session_state.working_seed.copy() for col in range(6): data_export[:, col] = np.array([export_id_dict.get(x, x) for x in data_export[:, col]]) st.download_button( label="Export optimals set", data=convert_df(data_export), file_name='NFL_SD_optimals_export.csv', mime='text/csv', ) with col2: if st.button("Load Data", key='load_data'): if site_var1 == 'Draftkings': if 'working_seed' in st.session_state: st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 9], team_var2)] st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 10], stack_var2)] st.session_state.data_export_display = pd.DataFrame(st.session_state.working_seed[0:1000], columns=column_names) elif 'working_seed' not in st.session_state: if slate_var1 == 'Showdown': st.session_state.working_seed = init_DK_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_DK_secondary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_DK_auxiliary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 9], team_var2)] st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 10], stack_var2)] st.session_state.data_export_display = pd.DataFrame(st.session_state.working_seed[0:1000], columns=column_names) elif site_var1 == 'Fanduel': if 'working_seed' in st.session_state: st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 8], team_var2)] st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 9], stack_var2)] st.session_state.data_export_display = pd.DataFrame(st.session_state.working_seed[0:1000], columns=column_names) elif 'working_seed' not in st.session_state: if slate_var1 == 'Showdown': st.session_state.working_seed = init_FD_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_FD_secondary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_FD_auxiliary_seed_frames(sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) raw_baselines = fd_raw column_names = fd_columns st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 8], team_var2)] st.session_state.working_seed = st.session_state.working_seed[np.isin(st.session_state.working_seed[:, 9], stack_var2)] st.session_state.data_export_display = pd.DataFrame(st.session_state.working_seed[0:1000], columns=column_names) with st.container(): if 'data_export_display' in st.session_state: st.dataframe(st.session_state.data_export_display.style.format(freq_format, precision=2), use_container_width = True) with tab1: col1, col2 = st.columns([1, 7]) with col1: if st.button("Load/Reset Data", key='reset2'): st.cache_data.clear() for key in st.session_state.keys(): del st.session_state[key] dk_raw, fd_raw = init_baselines('NFL') sim_sport_var1 = st.radio("What sport are you working with?", ('NFL', 'NBA'), key='sim_sport_var1') dk_raw, fd_raw = init_baselines(sim_sport_var1) sim_slate_var1 = st.radio("Which data are you loading?", ('Showdown', 'Secondary Showdown', 'Auxiliary Showdown'), key='sim_slate_var1') sim_site_var1 = st.radio("What site are you working with?", ('Draftkings', 'Fanduel'), key='sim_site_var1') if sim_site_var1 == 'Draftkings': raw_baselines = dk_raw column_names = dk_columns elif sim_site_var1 == 'Fanduel': raw_baselines = fd_raw column_names = fd_columns contest_var1 = st.selectbox("What contest size are you simulating?", ('Small', 'Medium', 'Large', 'Custom')) if contest_var1 == 'Small': Contest_Size = 1000 st.write("Small field size is 1,000 entrants.") raw_baselines['Own'] = raw_baselines['Small_Field_Own'] raw_baselines['CPT_Own'] = raw_baselines['small_CPT_Own'] elif contest_var1 == 'Medium': Contest_Size = 5000 st.write("Medium field size is 5,000 entrants.") elif contest_var1 == 'Large': Contest_Size = 10000 st.write("Large field size is 10,000 entrants.") elif contest_var1 == 'Custom': Contest_Size = st.number_input("Insert contest size", value=100, min_value=1, max_value=100000) strength_var1 = st.selectbox("How sharp is the field in the contest?", ('Very', 'Above Average', 'Average', 'Below Average', 'Not Very')) if strength_var1 == 'Not Very': sharp_split = 500000 elif strength_var1 == 'Below Average': sharp_split = 400000 elif strength_var1 == 'Average': sharp_split = 300000 elif strength_var1 == 'Above Average': sharp_split = 200000 elif strength_var1 == 'Very': sharp_split = 100000 with col2: if st.button("Run Contest Sim"): if 'working_seed' in st.session_state: maps_dict = { 'Projection_map':dict(zip(raw_baselines.Player,raw_baselines.Median)), 'cpt_projection_map':dict(zip(raw_baselines.Player,raw_baselines.cpt_Median)), 'Salary_map':dict(zip(raw_baselines.Player,raw_baselines.Salary)), 'Pos_map':dict(zip(raw_baselines.Player,raw_baselines.Position)), 'Own_map':dict(zip(raw_baselines.Player,raw_baselines['Own'])), 'cpt_Own_map':dict(zip(raw_baselines.Player,raw_baselines['CPT_Own'])), 'Team_map':dict(zip(raw_baselines.Player,raw_baselines.Team)), 'STDev_map':dict(zip(raw_baselines.Player,raw_baselines.STDev)), 'cpt_STDev_map':dict(zip(raw_baselines.Player,raw_baselines['CPT_STDev'])) } Sim_Winners = sim_contest(1000, st.session_state.working_seed, maps_dict, Contest_Size) Sim_Winner_Frame = pd.DataFrame(np.concatenate(Sim_Winners)) #st.table(Sim_Winner_Frame) # Initial setup Sim_Winner_Frame = pd.DataFrame(np.concatenate(Sim_Winners), columns=column_names + ['Fantasy']) Sim_Winner_Frame['GPP_Proj'] = (Sim_Winner_Frame['proj'] + Sim_Winner_Frame['Fantasy']) / 2 Sim_Winner_Frame['unique_id'] = Sim_Winner_Frame['proj'].astype(str) + Sim_Winner_Frame['salary'].astype(str) + Sim_Winner_Frame['Team'].astype(str) + Sim_Winner_Frame['Secondary'].astype(str) Sim_Winner_Frame = Sim_Winner_Frame.assign(win_count=Sim_Winner_Frame['unique_id'].map(Sim_Winner_Frame['unique_id'].value_counts())) # Type Casting type_cast_dict = {'salary': int, 'proj': np.float16, 'Fantasy': np.float16, 'GPP_Proj': np.float32, 'Own': np.float32} Sim_Winner_Frame = Sim_Winner_Frame.astype(type_cast_dict) # Sorting st.session_state.Sim_Winner_Frame = Sim_Winner_Frame.sort_values(by=['win_count', 'GPP_Proj'], ascending= [False, False]).copy().drop_duplicates(subset='unique_id').head(100) st.session_state.Sim_Winner_Frame.drop(columns='unique_id', inplace=True) # Data Copying st.session_state.Sim_Winner_Export = Sim_Winner_Frame.copy() # Data Copying st.session_state.Sim_Winner_Display = Sim_Winner_Frame.copy() else: if sim_site_var1 == 'Draftkings': if sim_slate_var1 == 'Showdown': st.session_state.working_seed = init_DK_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sim_slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_DK_secondary_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sim_slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_DK_auxiliary_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(dk_raw['Player'], dk_raw['player_id'])) raw_baselines = dk_raw column_names = dk_columns elif sim_site_var1 == 'Fanduel': if sim_slate_var1 == 'Showdown': st.session_state.working_seed = init_FD_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sim_slate_var1 == 'Secondary Showdown': st.session_state.working_seed = init_FD_secondary_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sim_slate_var1 == 'Auxiliary Showdown': st.session_state.working_seed = init_FD_auxiliary_seed_frames(sim_sport_var1, sharp_split_var) if sport_var1 == 'NFL': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) elif sport_var1 == 'NBA': export_id_dict = dict(zip(fd_raw['Player'], fd_raw['player_id'])) raw_baselines = fd_raw column_names = fd_columns maps_dict = { 'Projection_map':dict(zip(raw_baselines.Player,raw_baselines.Median)), 'cpt_projection_map':dict(zip(raw_baselines.Player,raw_baselines.cpt_Median)), 'Salary_map':dict(zip(raw_baselines.Player,raw_baselines.Salary)), 'Pos_map':dict(zip(raw_baselines.Player,raw_baselines.Position)), 'Own_map':dict(zip(raw_baselines.Player,raw_baselines['Own'])), 'cpt_Own_map':dict(zip(raw_baselines.Player,raw_baselines['CPT_Own'])), 'Team_map':dict(zip(raw_baselines.Player,raw_baselines.Team)), 'STDev_map':dict(zip(raw_baselines.Player,raw_baselines.STDev)), 'cpt_STDev_map':dict(zip(raw_baselines.Player,raw_baselines['CPT_STDev'])) } Sim_Winners = sim_contest(1000, st.session_state.working_seed, maps_dict, Contest_Size) Sim_Winner_Frame = pd.DataFrame(np.concatenate(Sim_Winners)) #st.table(Sim_Winner_Frame) # Initial setup Sim_Winner_Frame = pd.DataFrame(np.concatenate(Sim_Winners), columns=column_names + ['Fantasy']) Sim_Winner_Frame['GPP_Proj'] = (Sim_Winner_Frame['proj'] + Sim_Winner_Frame['Fantasy']) / 2 Sim_Winner_Frame['unique_id'] = Sim_Winner_Frame['proj'].astype(str) + Sim_Winner_Frame['salary'].astype(str) + Sim_Winner_Frame['Team'].astype(str) + Sim_Winner_Frame['Secondary'].astype(str) # Add percent rank columns for ownership at each roster position # Calculate Dupes column for Fanduel if sim_site_var1 == 'Fanduel': dup_count_columns = ['CPT_Own_percent_rank', 'FLEX1_Own_percent_rank', 'FLEX2_Own_percent_rank', 'FLEX3_Own_percent_rank', 'FLEX4_Own_percent_rank'] own_columns = ['CPT_Own', 'FLEX1_Own', 'FLEX2_Own', 'FLEX3_Own', 'FLEX4_Own'] calc_columns = ['own_product', 'avg_own_rank', 'dupes_calc'] Sim_Winner_Frame['CPT_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,0].map(maps_dict['cpt_Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX1_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,1].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX2_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,2].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX3_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,3].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX4_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,4].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['CPT_Own'] = Sim_Winner_Frame.iloc[:,0].map(maps_dict['cpt_Own_map']) / 100 Sim_Winner_Frame['FLEX1_Own'] = Sim_Winner_Frame.iloc[:,1].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX2_Own'] = Sim_Winner_Frame.iloc[:,2].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX3_Own'] = Sim_Winner_Frame.iloc[:,3].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX4_Own'] = Sim_Winner_Frame.iloc[:,4].map(maps_dict['Own_map']) / 100 # Calculate ownership product and convert to probability Sim_Winner_Frame['own_product'] = (Sim_Winner_Frame[own_columns].product(axis=1)) + 0.0001 # Calculate average of ownership percent rank columns Sim_Winner_Frame['avg_own_rank'] = Sim_Winner_Frame[dup_count_columns].mean(axis=1) # Calculate dupes formula Sim_Winner_Frame['dupes_calc'] = ((Sim_Winner_Frame['own_product'] * Sim_Winner_Frame['avg_own_rank']) * (Contest_Size * 1.5)) + ((Sim_Winner_Frame['salary'] - 59800) / 100) # Round and handle negative values Sim_Winner_Frame['Dupes'] = np.where( np.round(Sim_Winner_Frame['dupes_calc'], 0) <= 0, 0, np.round(Sim_Winner_Frame['dupes_calc'], 0) - 1 ) Sim_Winner_Frame['Dupes'] = (Sim_Winner_Frame['Dupes'] * (500000 / sharp_split)) / 2 elif sim_site_var1 == 'Draftkings': dup_count_columns = ['CPT_Own_percent_rank', 'FLEX1_Own_percent_rank', 'FLEX2_Own_percent_rank', 'FLEX3_Own_percent_rank', 'FLEX4_Own_percent_rank', 'FLEX5_Own_percent_rank'] own_columns = ['CPT_Own', 'FLEX1_Own', 'FLEX2_Own', 'FLEX3_Own', 'FLEX4_Own', 'FLEX5_Own'] calc_columns = ['own_product', 'avg_own_rank', 'dupes_calc'] Sim_Winner_Frame['CPT_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,0].map(maps_dict['cpt_Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX1_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,1].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX2_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,2].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX3_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,3].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX4_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,4].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['FLEX5_Own_percent_rank'] = Sim_Winner_Frame.iloc[:,5].map(maps_dict['Own_map']).rank(pct=True) Sim_Winner_Frame['CPT_Own'] = Sim_Winner_Frame.iloc[:,0].map(maps_dict['cpt_Own_map']) / 100 Sim_Winner_Frame['FLEX1_Own'] = Sim_Winner_Frame.iloc[:,1].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX2_Own'] = Sim_Winner_Frame.iloc[:,2].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX3_Own'] = Sim_Winner_Frame.iloc[:,3].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX4_Own'] = Sim_Winner_Frame.iloc[:,4].map(maps_dict['Own_map']) / 100 Sim_Winner_Frame['FLEX5_Own'] = Sim_Winner_Frame.iloc[:,5].map(maps_dict['Own_map']) / 100 # Calculate ownership product and convert to probability Sim_Winner_Frame['own_product'] = (Sim_Winner_Frame[own_columns].product(axis=1)) # Calculate average of ownership percent rank columns Sim_Winner_Frame['avg_own_rank'] = Sim_Winner_Frame[dup_count_columns].mean(axis=1) # Calculate dupes formula Sim_Winner_Frame['dupes_calc'] = ((Sim_Winner_Frame['own_product'] * Sim_Winner_Frame['avg_own_rank']) * (Contest_Size * 1.5)) + ((Sim_Winner_Frame['salary'] - 49800) / 100) # Round and handle negative values Sim_Winner_Frame['Dupes'] = np.where( np.round(Sim_Winner_Frame['dupes_calc'], 0) <= 0, 0, np.round(Sim_Winner_Frame['dupes_calc'], 0) - 1 ) Sim_Winner_Frame['Dupes'] = (Sim_Winner_Frame['Dupes'] * (500000 / sharp_split)) / 2 Sim_Winner_Frame['Dupes'] = np.round(Sim_Winner_Frame['Dupes'], 0) Sim_Winner_Frame['Dupes'] = np.where( np.round(Sim_Winner_Frame['dupes_calc'], 0) <= 0, 0, np.round(Sim_Winner_Frame['dupes_calc'], 0) ) Sim_Winner_Frame = Sim_Winner_Frame.drop(columns=dup_count_columns) Sim_Winner_Frame = Sim_Winner_Frame.drop(columns=own_columns) Sim_Winner_Frame = Sim_Winner_Frame.drop(columns=calc_columns) Sim_Winner_Frame = Sim_Winner_Frame.assign(win_count=Sim_Winner_Frame['unique_id'].map(Sim_Winner_Frame['unique_id'].value_counts())) # Type Casting type_cast_dict = {'salary': int, 'proj': np.float16, 'Fantasy': np.float16, 'GPP_Proj': np.float32, 'Own': np.float32, 'Dupes': int} Sim_Winner_Frame = Sim_Winner_Frame.astype(type_cast_dict) # Sorting st.session_state.Sim_Winner_Frame = Sim_Winner_Frame.sort_values(by=['win_count', 'GPP_Proj'], ascending= [False, False]).copy().drop_duplicates(subset='unique_id').head(100) st.session_state.Sim_Winner_Frame.drop(columns='unique_id', inplace=True) # Data Copying st.session_state.Sim_Winner_Export = Sim_Winner_Frame.copy() st.session_state.Sim_Winner_Export.iloc[:, 0:6] = st.session_state.Sim_Winner_Export.iloc[:, 0:6].apply(lambda x: x.map(export_id_dict)) # Data Copying st.session_state.Sim_Winner_Display = Sim_Winner_Frame.copy() freq_copy = st.session_state.Sim_Winner_Display if sim_site_var1 == 'Draftkings': freq_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,0:6].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) elif sim_site_var1 == 'Fanduel': freq_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,0:5].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) freq_working['Freq'] = freq_working['Freq'].astype(int) freq_working['Position'] = freq_working['Player'].map(maps_dict['Pos_map']) if sim_site_var1 == 'Draftkings': if sim_sport_var1 == 'NFL': freq_working['Salary'] = freq_working['Player'].map(maps_dict['Salary_map']) / 1.5 elif sim_sport_var1 == 'NBA': freq_working['Salary'] = freq_working['Player'].map(maps_dict['Salary_map']) elif sim_site_var1 == 'Fanduel': freq_working['Salary'] = freq_working['Player'].map(maps_dict['Salary_map']) freq_working['Proj Own'] = freq_working['Player'].map(maps_dict['Own_map']) / 100 freq_working['Exposure'] = freq_working['Freq']/(1000) freq_working['Edge'] = freq_working['Exposure'] - freq_working['Proj Own'] freq_working['Team'] = freq_working['Player'].map(maps_dict['Team_map']) st.session_state.player_freq = freq_working.copy() if sim_site_var1 == 'Draftkings': cpt_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,0:1].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) elif sim_site_var1 == 'Fanduel': cpt_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,0:1].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) cpt_working['Freq'] = cpt_working['Freq'].astype(int) cpt_working['Position'] = cpt_working['Player'].map(maps_dict['Pos_map']) if sim_sport_var1 == 'NFL': cpt_working['Salary'] = cpt_working['Player'].map(maps_dict['Salary_map']) elif sim_sport_var1 == 'NBA': cpt_working['Salary'] = cpt_working['Player'].map(maps_dict['Salary_map']) * 1.5 cpt_working['Proj Own'] = cpt_working['Player'].map(maps_dict['cpt_Own_map']) / 100 cpt_working['Exposure'] = cpt_working['Freq']/(1000) cpt_working['Edge'] = cpt_working['Exposure'] - cpt_working['Proj Own'] cpt_working['Team'] = cpt_working['Player'].map(maps_dict['Team_map']) st.session_state.sp_freq = cpt_working.copy() if sim_site_var1 == 'Draftkings': flex_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,1:6].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) cpt_own_div = 600 elif sim_site_var1 == 'Fanduel': flex_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,1:5].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) cpt_own_div = 500 flex_working['Freq'] = flex_working['Freq'].astype(int) flex_working['Position'] = flex_working['Player'].map(maps_dict['Pos_map']) if sim_site_var1 == 'Draftkings': if sim_sport_var1 == 'NFL': flex_working['Salary'] = flex_working['Player'].map(maps_dict['Salary_map']) / 1.5 elif sim_sport_var1 == 'NBA': flex_working['Salary'] = flex_working['Player'].map(maps_dict['Salary_map']) elif sim_site_var1 == 'Fanduel': flex_working['Salary'] = flex_working['Player'].map(maps_dict['Salary_map']) flex_working['Proj Own'] = (flex_working['Player'].map(maps_dict['Own_map']) / 100) - (flex_working['Player'].map(maps_dict['cpt_Own_map']) / 100) flex_working['Exposure'] = flex_working['Freq']/(1000) flex_working['Edge'] = flex_working['Exposure'] - flex_working['Proj Own'] flex_working['Team'] = flex_working['Player'].map(maps_dict['Team_map']) st.session_state.flex_freq = flex_working.copy() if sim_site_var1 == 'Draftkings': team_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,8:9].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) elif sim_site_var1 == 'Fanduel': team_working = pd.DataFrame(np.column_stack(np.unique(freq_copy.iloc[:,7:8].values, return_counts=True)), columns=['Player','Freq']).sort_values('Freq', ascending=False).reset_index(drop=True) team_working['Freq'] = team_working['Freq'].astype(int) team_working['Exposure'] = team_working['Freq']/(1000) st.session_state.team_freq = team_working.copy() with st.container(): if st.button("Reset Sim", key='reset_sim'): for key in st.session_state.keys(): del st.session_state[key] if 'player_freq' in st.session_state: player_split_var2 = st.radio("Are you wanting to isolate any lineups with specific players?", ('Full Players', 'Specific Players'), key='player_split_var2') if player_split_var2 == 'Specific Players': find_var2 = st.multiselect('Which players must be included in the lineups?', options = st.session_state.player_freq['Player'].unique()) elif player_split_var2 == 'Full Players': find_var2 = st.session_state.player_freq.Player.values.tolist() if player_split_var2 == 'Specific Players': st.session_state.Sim_Winner_Display = st.session_state.Sim_Winner_Frame[np.equal.outer(st.session_state.Sim_Winner_Frame.to_numpy(), find_var2).any(axis=1).all(axis=1)] if player_split_var2 == 'Full Players': st.session_state.Sim_Winner_Display = st.session_state.Sim_Winner_Frame if 'Sim_Winner_Display' in st.session_state: st.dataframe(st.session_state.Sim_Winner_Display.style.background_gradient(axis=0).background_gradient(cmap='RdYlGn').format(precision=2), use_container_width = True) if 'Sim_Winner_Export' in st.session_state: st.download_button( label="Export Full Frame", data=st.session_state.Sim_Winner_Export.to_csv().encode('utf-8'), file_name='NFL_SD_consim_export.csv', mime='text/csv', ) with st.container(): tab1, tab2, tab3, tab4 = st.tabs(['Overall Exposures', 'CPT Exposures', 'FLEX Exposures', 'Team Exposures']) with tab1: if 'player_freq' in st.session_state: st.dataframe(st.session_state.player_freq.style.background_gradient(axis=0).background_gradient(cmap='RdYlGn').format(freq_format, precision=2), use_container_width = True) st.download_button( label="Export Exposures", data=st.session_state.player_freq.to_csv().encode('utf-8'), file_name='player_freq_export.csv', mime='text/csv', key='overall' ) with tab2: if 'sp_freq' in st.session_state: st.dataframe(st.session_state.sp_freq.style.background_gradient(axis=0).background_gradient(cmap='RdYlGn').format(freq_format, precision=2), use_container_width = True) st.download_button( label="Export Exposures", data=st.session_state.sp_freq.to_csv().encode('utf-8'), file_name='cpt_freq.csv', mime='text/csv', key='sp' ) with tab3: if 'flex_freq' in st.session_state: st.dataframe(st.session_state.flex_freq.style.background_gradient(axis=0).background_gradient(cmap='RdYlGn').format(freq_format, precision=2), use_container_width = True) st.download_button( label="Export Exposures", data=st.session_state.flex_freq.to_csv().encode('utf-8'), file_name='flex_freq.csv', mime='text/csv', key='flex' ) with tab4: if 'team_freq' in st.session_state: st.dataframe(st.session_state.team_freq.style.background_gradient(axis=0).background_gradient(cmap='RdYlGn').format(percentages_format, precision=2), use_container_width = True) st.download_button( label="Export Exposures", data=st.session_state.team_freq.to_csv().encode('utf-8'), file_name='team_freq.csv', mime='text/csv', key='team' )