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import streamlit as st |
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import numpy as np |
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import pandas as pd |
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import time |
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from fuzzywuzzy import process |
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def predict_dupes(portfolio, maps_dict, site_var, type_var, Contest_Size, strength_var): |
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if strength_var == 'Weak': |
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dupes_multiplier = .75 |
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percentile_multiplier = .90 |
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elif strength_var == 'Average': |
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dupes_multiplier = 1.00 |
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percentile_multiplier = 1.00 |
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elif strength_var == 'Sharp': |
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dupes_multiplier = 1.25 |
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percentile_multiplier = 1.10 |
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max_ownership = max(maps_dict['own_map'].values()) / 100 |
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average_ownership = np.mean(list(maps_dict['own_map'].values())) / 100 |
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if site_var == 'Fanduel': |
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if type_var == 'Showdown': |
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dup_count_columns = ['CPT_Own_percent_rank', 'FLEX1_Own_percent_rank', 'FLEX2_Own_percent_rank', 'FLEX3_Own_percent_rank', 'FLEX4_Own_percent_rank'] |
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own_columns = ['CPT_Own', 'FLEX1_Own', 'FLEX2_Own', 'FLEX3_Own', 'FLEX4_Own'] |
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calc_columns = ['own_product', 'own_average', 'own_sum', 'avg_own_rank', 'dupes_calc', 'low_own_count', 'own_ratio', 'Ref_Proj', 'Max_Proj', 'Min_Proj', 'Avg_Ref', 'own_ratio'] |
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flex_ownerships = pd.concat([ |
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portfolio.iloc[:,1].map(maps_dict['own_map']), |
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portfolio.iloc[:,2].map(maps_dict['own_map']), |
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portfolio.iloc[:,3].map(maps_dict['own_map']), |
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portfolio.iloc[:,4].map(maps_dict['own_map']) |
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]) |
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flex_rank = flex_ownerships.rank(pct=True) |
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portfolio['CPT_Own_percent_rank'] = portfolio.iloc[:,0].map(maps_dict['cpt_own_map']).rank(pct=True) |
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portfolio['FLEX1_Own_percent_rank'] = portfolio.iloc[:,1].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX2_Own_percent_rank'] = portfolio.iloc[:,2].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX3_Own_percent_rank'] = portfolio.iloc[:,3].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX4_Own_percent_rank'] = portfolio.iloc[:,4].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['CPT_Own'] = portfolio.iloc[:,0].map(maps_dict['cpt_own_map']) / 100 |
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portfolio['FLEX1_Own'] = portfolio.iloc[:,1].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX2_Own'] = portfolio.iloc[:,2].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX3_Own'] = portfolio.iloc[:,3].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX4_Own'] = portfolio.iloc[:,4].map(maps_dict['own_map']) / 100 |
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portfolio['own_product'] = (portfolio[own_columns].product(axis=1)) |
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portfolio['own_average'] = (portfolio['Own'].max() * .33) / 100 |
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portfolio['own_sum'] = portfolio[own_columns].sum(axis=1) |
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portfolio['avg_own_rank'] = portfolio[dup_count_columns].mean(axis=1) |
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portfolio['dupes_calc'] = (portfolio['own_product'] * portfolio['avg_own_rank']) * Contest_Size + ((portfolio['salary'] - (60000 - portfolio['Own'])) / 100) - ((60000 - portfolio['salary']) / 100) |
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portfolio['dupes_calc'] = portfolio['dupes_calc'] * dupes_multiplier |
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portfolio['Dupes'] = np.where( |
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np.round(portfolio['dupes_calc'], 0) <= 0, |
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0, |
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np.round(portfolio['dupes_calc'], 0) - 1 |
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) |
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if type_var == 'Classic': |
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num_players = len([col for col in portfolio.columns if col not in ['salary', 'median', 'Own']]) |
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dup_count_columns = [f'player_{i}_percent_rank' for i in range(1, num_players + 1)] |
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own_columns = [f'player_{i}_own' for i in range(1, num_players + 1)] |
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calc_columns = ['own_product', 'own_average', 'own_sum', 'avg_own_rank', 'dupes_calc', 'low_own_count', 'own_ratio', 'Ref_Proj', 'Max_Proj', 'Min_Proj', 'Avg_Ref', 'own_ratio'] |
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for i in range(1, num_players + 1): |
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portfolio[f'player_{i}_percent_rank'] = portfolio.iloc[:,i-1].map(maps_dict['own_percent_rank']) |
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portfolio[f'player_{i}_own'] = portfolio.iloc[:,i-1].map(maps_dict['own_map']) / 100 |
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portfolio['own_product'] = (portfolio[own_columns].product(axis=1)) |
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portfolio['own_average'] = (portfolio['Own'].max() * .33) / 100 |
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portfolio['own_sum'] = portfolio[own_columns].sum(axis=1) |
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portfolio['avg_own_rank'] = portfolio[dup_count_columns].mean(axis=1) |
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portfolio['dupes_calc'] = (portfolio['own_product'] * portfolio['avg_own_rank']) * Contest_Size + ((portfolio['salary'] - (60000 - portfolio['Own'])) / 100) - ((60000 - portfolio['salary']) / 100) |
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portfolio['dupes_calc'] = portfolio['dupes_calc'] * dupes_multiplier |
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portfolio['Dupes'] = np.where( |
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np.round(portfolio['dupes_calc'], 0) <= 0, |
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0, |
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np.round(portfolio['dupes_calc'], 0) - 1 |
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) |
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elif site_var == 'Draftkings': |
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if type_var == 'Showdown': |
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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'] |
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own_columns = ['CPT_Own', 'FLEX1_Own', 'FLEX2_Own', 'FLEX3_Own', 'FLEX4_Own', 'FLEX5_Own'] |
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calc_columns = ['own_product', 'own_average', 'own_sum', 'avg_own_rank', 'dupes_calc', 'low_own_count', 'Ref_Proj', 'Max_Proj', 'Min_Proj', 'Avg_Ref', 'own_ratio'] |
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flex_ownerships = pd.concat([ |
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portfolio.iloc[:,1].map(maps_dict['own_map']), |
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portfolio.iloc[:,2].map(maps_dict['own_map']), |
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portfolio.iloc[:,3].map(maps_dict['own_map']), |
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portfolio.iloc[:,4].map(maps_dict['own_map']), |
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portfolio.iloc[:,5].map(maps_dict['own_map']) |
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]) |
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flex_rank = flex_ownerships.rank(pct=True) |
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portfolio['CPT_Own_percent_rank'] = portfolio.iloc[:,0].map(maps_dict['cpt_own_map']).rank(pct=True) |
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portfolio['FLEX1_Own_percent_rank'] = portfolio.iloc[:,1].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX2_Own_percent_rank'] = portfolio.iloc[:,2].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX3_Own_percent_rank'] = portfolio.iloc[:,3].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX4_Own_percent_rank'] = portfolio.iloc[:,4].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['FLEX5_Own_percent_rank'] = portfolio.iloc[:,5].map(maps_dict['own_map']).map(lambda x: flex_rank[flex_ownerships == x].iloc[0]) |
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portfolio['CPT_Own'] = portfolio.iloc[:,0].map(maps_dict['cpt_own_map']) / 100 |
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portfolio['FLEX1_Own'] = portfolio.iloc[:,1].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX2_Own'] = portfolio.iloc[:,2].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX3_Own'] = portfolio.iloc[:,3].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX4_Own'] = portfolio.iloc[:,4].map(maps_dict['own_map']) / 100 |
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portfolio['FLEX5_Own'] = portfolio.iloc[:,5].map(maps_dict['own_map']) / 100 |
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portfolio['own_product'] = (portfolio[own_columns].product(axis=1)) |
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portfolio['own_average'] = (portfolio['Own'].max() * .33) / 100 |
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portfolio['own_sum'] = portfolio[own_columns].sum(axis=1) |
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portfolio['avg_own_rank'] = portfolio[dup_count_columns].mean(axis=1) |
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portfolio['dupes_calc'] = (portfolio['own_product'] * portfolio['avg_own_rank']) * Contest_Size + ((portfolio['salary'] - (50000 - portfolio['Own'])) / 100) - ((50000 - portfolio['salary']) / 100) |
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portfolio['dupes_calc'] = portfolio['dupes_calc'] * dupes_multiplier |
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portfolio['Dupes'] = np.where( |
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np.round(portfolio['dupes_calc'], 0) <= 0, |
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0, |
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np.round(portfolio['dupes_calc'], 0) - 1 |
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) |
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if type_var == 'Classic': |
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num_players = len([col for col in portfolio.columns if col not in ['salary', 'median', 'Own']]) |
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dup_count_columns = [f'player_{i}_percent_rank' for i in range(1, num_players + 1)] |
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own_columns = [f'player_{i}_own' for i in range(1, num_players + 1)] |
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calc_columns = ['own_product', 'own_average', 'own_sum', 'avg_own_rank', 'dupes_calc', 'low_own_count', 'Ref_Proj', 'Max_Proj', 'Min_Proj', 'Avg_Ref', 'own_ratio'] |
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for i in range(1, num_players + 1): |
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portfolio[f'player_{i}_percent_rank'] = portfolio.iloc[:,i-1].map(maps_dict['own_percent_rank']) |
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portfolio[f'player_{i}_own'] = portfolio.iloc[:,i-1].map(maps_dict['own_map']) / 100 |
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portfolio['own_product'] = (portfolio[own_columns].product(axis=1)) |
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portfolio['own_average'] = (portfolio['Own'].max() * .33) / 100 |
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portfolio['own_sum'] = portfolio[own_columns].sum(axis=1) |
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portfolio['avg_own_rank'] = portfolio[dup_count_columns].mean(axis=1) |
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portfolio['dupes_calc'] = (portfolio['own_product'] * portfolio['avg_own_rank']) * Contest_Size + ((portfolio['salary'] - (50000 - portfolio['Own'])) / 100) - ((50000 - portfolio['salary']) / 100) |
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portfolio['dupes_calc'] = portfolio['dupes_calc'] * dupes_multiplier |
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portfolio['Dupes'] = np.where( |
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np.round(portfolio['dupes_calc'], 0) <= 0, |
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0, |
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np.round(portfolio['dupes_calc'], 0) - 1 |
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) |
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portfolio['Dupes'] = np.round(portfolio['Dupes'], 0) |
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portfolio['own_ratio'] = np.where( |
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portfolio[own_columns].isin([max_ownership]).any(axis=1), |
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portfolio['own_sum'] / portfolio['own_average'], |
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(portfolio['own_sum'] - max_ownership) / portfolio['own_average'] |
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) |
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percentile_cut_scalar = portfolio['median'].max() |
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if type_var == 'Classic': |
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own_ratio_nerf = 2 |
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elif type_var == 'Showdown': |
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own_ratio_nerf = 1.5 |
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portfolio['Finish_percentile'] = portfolio.apply( |
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lambda row: .0005 if (row['own_ratio'] - own_ratio_nerf) / ((10 * (row['median'] / percentile_cut_scalar)) / 2) < .0005 |
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else (row['own_ratio'] - own_ratio_nerf) / ((10 * (row['median'] / percentile_cut_scalar)) / 2), |
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axis=1 |
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) |
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portfolio['Ref_Proj'] = portfolio['median'].max() |
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portfolio['Max_Proj'] = portfolio['Ref_Proj'] + 10 |
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portfolio['Min_Proj'] = portfolio['Ref_Proj'] - 10 |
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portfolio['Avg_Ref'] = (portfolio['Max_Proj'] + portfolio['Min_Proj']) / 2 |
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portfolio['Win%'] = (((portfolio['median'] / portfolio['Avg_Ref']) - (0.1 + ((portfolio['Ref_Proj'] - portfolio['median'])/100))) / (Contest_Size / 1000)) / 10 |
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max_allowed_win = (1 / Contest_Size) * 5 |
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portfolio['Win%'] = portfolio['Win%'] / portfolio['Win%'].max() * max_allowed_win |
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portfolio['Finish_percentile'] = portfolio['Finish_percentile'] + .005 + (.005 * (Contest_Size / 10000)) |
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portfolio['Finish_percentile'] = portfolio['Finish_percentile'] * percentile_multiplier |
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portfolio['Win%'] = portfolio['Win%'] * (1 - portfolio['Finish_percentile']) |
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portfolio['low_own_count'] = portfolio[own_columns].apply(lambda row: (row < 0.10).sum(), axis=1) |
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portfolio['Finish_percentile'] = portfolio.apply(lambda row: row['Finish_percentile'] if row['low_own_count'] <= 0 else row['Finish_percentile'] / row['low_own_count'], axis=1) |
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portfolio['Lineup Edge'] = portfolio['Win%'] * ((.5 - portfolio['Finish_percentile']) * (Contest_Size / 2.5)) |
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portfolio['Lineup Edge'] = portfolio.apply(lambda row: row['Lineup Edge'] / (row['Dupes'] + 1) if row['Dupes'] > 0 else row['Lineup Edge'], axis=1) |
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portfolio['Lineup Edge'] = portfolio['Lineup Edge'] - portfolio['Lineup Edge'].mean() |
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portfolio = portfolio.drop(columns=dup_count_columns) |
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portfolio = portfolio.drop(columns=own_columns) |
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portfolio = portfolio.drop(columns=calc_columns) |
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return portfolio |
