Spaces:

Multichem-PD
/

NBA_Contest_Sims

Running

NBA_Contest_Sims / src /sim_func_hold /regular_functions.py

James McCool

fixed the FD contest sims

7aeef54 2 months ago

6.36 kB

	import streamlit as st
	import pandas as pd
	import numpy as np
	from pymongo import MongoClient
	from database import db

	@st.cache_data(ttl = 600)
	def init_DK_seed_frames(slate_var, sharp_split):


	if slate_var == 'Main Slate':
	collection = db['DK_NBA_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"DK_NBA_seed_frame_Main Slate"]
	elif slate_var == 'Secondary Slate':
	collection = db['DK_NBA_Secondary_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"DK_NBA_seed_frame_Secondary Slate"]
	elif slate_var == 'Late Slate':
	collection = db['DK_NBA_Late_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"DK_NBA_seed_frame_Late Slate"]

	cursor = collection.find().limit(sharp_split)

	raw_display = pd.DataFrame(list(cursor))
	raw_display = raw_display[['PG', 'SG', 'SF', 'PF', 'C', 'G', 'F', 'FLEX', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']]
	dict_columns = ['PG', 'SG', 'SF', 'PF', 'C', 'G', 'F', 'FLEX']
	for col in dict_columns:
	raw_display[col] = raw_display[col].map(names_dict)
	DK_seed = raw_display.to_numpy()

	return DK_seed

	@st.cache_data(ttl = 599)
	def init_FD_seed_frames(slate_var, sharp_split):

	if slate_var == 'Main Slate':
	collection = db['FD_NBA_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"FD_NBA_seed_frame_Main Slate"]
	cursor = collection.find().limit(sharp_split)
	elif slate_var == 'Secondary Slate':
	collection = db['FD_NBA_Secondary_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"FD_NBA_seed_frame_Secondary Slate"]
	cursor = collection.find().limit(sharp_split)
	elif slate_var == 'Late Slate':
	collection = db['FD_NBA_Late_name_map']
	cursor = collection.find()
	raw_data = pd.DataFrame(list(cursor))
	names_dict = dict(zip(raw_data['key'], raw_data['value']))
	collection = db[f"FD_NBA_seed_frame_Late Slate"]
	cursor = collection.find().limit(sharp_split)

	raw_display = pd.DataFrame(list(cursor))
	raw_display = raw_display[['PG1', 'PG2', 'SG1', 'SG2', 'SF1', 'SF2', 'PF1', 'PF2', 'C', 'salary', 'proj', 'Team', 'Team_count', 'Secondary', 'Secondary_count', 'Own']]
	dict_columns = ['PG1', 'PG2', 'SG1', 'SG2', 'SF1', 'SF2', 'PF1', 'PF2', 'C']
	for col in dict_columns:
	raw_display[col] = raw_display[col].map(names_dict)
	FD_seed = raw_display.to_numpy()

	return FD_seed

	@st.cache_data(ttl = 599)
	def init_baselines(slate_var):
	collection = db["Player_Range_Of_Outcomes"]
	cursor = collection.find()

	raw_display = pd.DataFrame(list(cursor))
	raw_display = raw_display[raw_display['slate'] == slate_var]
	raw_display = raw_display[raw_display['version'] == 'overall']
	raw_display = raw_display.rename(columns={'player_id': 'player_ID'})
	dk_raw = raw_display[raw_display['site'] == 'Draftkings']
	dk_raw = raw_display[['Player', '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', 'version', 'slate', 'timestamp', 'player_ID', 'site']]
	dk_raw['STDev'] = (dk_raw['Ceiling'] - dk_raw['Floor']) / 4

	fd_raw = raw_display[raw_display['site'] == 'Fanduel']
	fd_raw = fd_raw[['Player', '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', 'version', 'slate', 'timestamp', 'player_ID', 'site']]
	fd_raw['STDev'] = (fd_raw['Ceiling'] - fd_raw['Floor']) / 4

	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[:, :8], 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[:, :9], 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(site_var, Sim_size, seed_frame, maps_dict, Contest_Size):
	SimVar = 1
	Sim_Winners = []
	fp_array = seed_frame.copy()
	# Pre-vectorize functions
	vec_projection_map = np.vectorize(maps_dict['Projection_map'].__getitem__)
	vec_stdev_map = np.vectorize(maps_dict['STDev_map'].__getitem__)

	st.write('Simulating contest on frames')

	while SimVar <= Sim_size:
	fp_random = fp_array[np.random.choice(fp_array.shape[0], Contest_Size)]

	sample_arrays1 = np.c_[
	fp_random,
	np.sum(np.random.normal(
	loc=vec_projection_map(fp_random[:, :-7]),
	scale=vec_stdev_map(fp_random[:, :-7])),
	axis=1)
	]

	sample_arrays = sample_arrays1

	if site_var == 'Draftkings':
	final_array = sample_arrays[sample_arrays[:, 9].argsort()[::-1]]
	elif site_var == 'Fanduel':
	final_array = sample_arrays[sample_arrays[:, 10].argsort()[::-1]]
	best_lineup = final_array[final_array[:, -1].argsort(kind='stable')[::-1][:1]]
	Sim_Winners.append(best_lineup)
	SimVar += 1

	return Sim_Winners