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| from shiny import App, Inputs, Outputs, Session, reactive, render, req, ui | |
| import datasets | |
| from datasets import load_dataset | |
| import pandas as pd | |
| import numpy as np | |
| import matplotlib.pyplot as plt | |
| import seaborn as sns | |
| import numpy as np | |
| from scipy.stats import gaussian_kde | |
| import matplotlib | |
| from matplotlib.ticker import MaxNLocator | |
| from matplotlib.gridspec import GridSpec | |
| from scipy.stats import zscore | |
| import math | |
| import matplotlib | |
| from adjustText import adjust_text | |
| import matplotlib.ticker as mtick | |
| from shinywidgets import output_widget, render_widget | |
| import pandas as pd | |
| from configure import base_url | |
| import shinyswatch | |
| import inflect | |
| from matplotlib.pyplot import text | |
| def percentile(n): | |
| def percentile_(x): | |
| return np.nanpercentile(x, n) | |
| percentile_.__name__ = 'percentile_%s' % n | |
| return percentile_ | |
| from matplotlib.colors import Normalize | |
| print('Running') | |
| cmap = matplotlib.colors.LinearSegmentedColormap.from_list("", ["#4285F4","white","#FBBC04"]) | |
| df = pd.read_csv('statcast_20152023.csv') | |
| df['last_name'] = df['last_name, first_name'].str.split(',').str[0] | |
| df['first_name'] = df['last_name, first_name'].str.split(',').str[1].str.strip(' ') | |
| df['name'] = df['first_name'] +' ' +df['last_name'] | |
| df[[x for x in df if x[-7:] == 'percent']] = df[[x for x in df if x[-7:] == 'percent']]/100 | |
| df['barrel_batted_rate'] = df['barrel_batted_rate']/100 | |
| player_dict = df[['player_id','name']].drop_duplicates().sort_values('name').set_index('player_id').to_dict()['name'] | |
| df_median = df[df.pa>=400] | |
| format_dict = { | |
| 'k_percent':{'format':':.1%','average':df.strikeout.sum()/df.pa.sum(),'a_d_good':False,'tab_name':'K%'}, | |
| 'bb_percent':{'format':':.1%','average':df.walk.sum()/df.pa.sum(),'a_d_good':True,'tab_name':'BB%'}, | |
| 'batting_avg':{'format':':.3f','average':df.hit.sum()/df.ab.sum(),'a_d_good':True,'tab_name':'AVG'}, | |
| 'on_base_plus_slg':{'format':':.3f','average':df.on_base_plus_slg.mean()/df.pa.mean(),'a_d_good':True,'tab_name':'OPS'}, | |
| 'isolated_power':{'format':':.3f','average':(df.single.sum() + df.double.sum()*2 + df.triple.sum()*3 + df.home_run.sum()*4)/df.ab.sum() - df.hit.sum()/df.ab.sum(),'a_d_good':True,'tab_name':'ISO'}, | |
| 'xba':{'format':':.3f','average':df_median.xba.median(),'a_d_good':True,'tab_name':'xBA'}, | |
| 'xslg':{'format':':.3f','average':df_median.xslg.median(),'a_d_good':True,'tab_name':'xSLG'}, | |
| 'woba':{'format':':.3f','average':df_median.woba.median(),'a_d_good':True,'tab_name':'wOBA'}, | |
| 'xwoba':{'format':':.3f','average':df_median.xwoba.median(),'a_d_good':True,'tab_name':'xwOBA'}, | |
| 'xobp':{'format':':.3f','average':df_median.xobp.median(),'a_d_good':True,'tab_name':'xOBP'}, | |
| 'xiso':{'format':':.3f','average':df_median.xiso.median(),'a_d_good':True,'tab_name':'xISO'}, | |
| 'wobacon':{'format':':.3f','average':df_median.wobacon.median(),'a_d_good':True,'tab_name':'wOBACON'}, | |
| 'xwobacon':{'format':':.3f','average':df_median.xwobacon.median(),'a_d_good':True,'tab_name':'xwOBACON'}, | |
| 'bacon':{'format':':.1f','average':df_median.bacon.median(),'a_d_good':True,'tab_name':'BACON'}, | |
| 'xbacon':{'format':':.1f','average':df_median.xbacon.median(),'a_d_good':True,'tab_name':'xBACON'}, | |
| 'xbadiff':{'format':':.3f','average':df_median.xbadiff.median(),'a_d_good':True,'tab_name':'BA-xBA'}, | |
| 'xslgdiff':{'format':':.3f','average':df_median.xslgdiff.median(),'a_d_good':True,'tab_name':'SLG-xSLG'}, | |
| 'wobadiff':{'format':':.3f','average':df_median.wobadiff.median(),'a_d_good':True,'tab_name':'wOBA-xwOBA'}, | |
| 'exit_velocity_avg':{'format':':.1f','average':(df.exit_velocity_avg * df.batted_ball).sum() / (df.batted_ball).sum(),'a_d_good':True,'tab_name':'EV'}, | |
| 'launch_angle_avg':{'format':':.1f','average':(df.launch_angle_avg * df.batted_ball).sum() / (df.batted_ball).sum(),'a_d_good':True,'tab_name':'LA'}, | |
| 'barrel':{'format':':.0f','average':df_median.barrel.median(),'a_d_good':True,'tab_name':'Barrel'}, | |
| 'barrel_batted_rate':{'format':':.1%','average':(df.barrel).sum() / (df.batted_ball).sum(),'a_d_good':True,'tab_name':'Barrel%'}, | |
| 'avg_best_speed':{'format':':.1f','average':(df.avg_best_speed * df.batted_ball).sum() / (df.batted_ball).sum(),'a_d_good':True,'tab_name':'Best Speed'}, | |
| 'avg_hyper_speed':{'format':':.1f','average':(df.avg_hyper_speed * df.batted_ball).sum() / (df.batted_ball).sum(),'a_d_good':True,'tab_name':'Hyper Speed'}, | |
| 'out_zone_swing_miss':{'format':':.0f','average':df_median.out_zone_swing_miss.mean(),'a_d_good':True,'tab_name':'O-Whiff%'}, | |
| 'out_zone_swing':{'format':':.0f','average':df_median.out_zone_swing.mean(),'a_d_good':True,'tab_name':'O-Swing'}, | |
| 'out_zone':{'format':':.0f','average':df_median.out_zone.mean(),'a_d_good':True,'tab_name':'O-Zone'}, | |
| 'pitch_count_offspeed':{'format':':.0f','average':df_median.pitch_count_offspeed.mean(),'a_d_good':True,'tab_name':'Pitch Off-Speed'}, | |
| 'pitch_count_fastball':{'format':':.0f','average':df_median.pitch_count_fastball.mean(),'a_d_good':True,'tab_name':'Pitch Fastball'}, | |
| 'pitch_count_breaking':{'format':':.0f','average':df_median.pitch_count_breaking.mean(),'a_d_good':True,'tab_name':'Pitch Breaking'}, | |
| 'pitch_count':{'format':':.0f','average':df_median.pitch_count.mean(),'a_d_good':True,'tab_name':'Pitches'}, | |
| 'in_zone_swing_miss':{'format':':.0f','average':df_median.in_zone_swing_miss.mean(),'a_d_good':False,'tab_name':'Z-Whiff'}, | |
| 'in_zone_swing':{'format':':.0f','average':df_median.in_zone_swing.mean(),'a_d_good':True,'tab_name':'Z-Swing'}, | |
| 'in_zone':{'format':':.0f','average':df_median.in_zone.mean(),'a_d_good':True,'tab_name':'Zone'}, | |
| 'edge':{'format':':.0f','average':df_median.edge.mean(),'a_d_good':True,'tab_name':'Edge'}, | |
| 'batted_ball':{'format':':.0f','average':df_median.batted_ball.mean(),'a_d_good':True,'tab_name':'Batted Balls'}, | |
| 'groundballs':{'format':':.0f','average':df_median.groundballs.mean(),'a_d_good':True,'tab_name':'Groundballs'}, | |
| 'flyballs':{'format':':.0f','average':df_median.flyballs.mean(),'a_d_good':True,'tab_name':'Flyballs'}, | |
| 'linedrives':{'format':':.0f','average':df_median.linedrives.mean(),'a_d_good':True,'tab_name':'Linedrives'}, | |
| 'popups':{'format':':.0f','average':df_median.popups.mean(),'a_d_good':True,'tab_name':'Popups'}, | |
| 'n_bolts':{'format':':.0f','average':df_median.n_bolts.mean(),'a_d_good':True,'tab_name':'Bolts'}, | |
| 'hp_to_1b':{'format':':.2f','average':df_median.hp_to_1b.mean(),'a_d_good':True,'tab_name':'Home Plate to 1st'}, | |
| 'sprint_speed':{'format':':.1f','average':df_median.sprint_speed.mean(),'a_d_good':True,'tab_name':'Sprint Speed'}, | |
| 'slg_percent':{'format':':.1%','average':(df.single.sum() + df.double.sum()*2 + df.triple.sum()*3 + df.home_run.sum()*4)/df.ab.sum(),'a_d_good':True,'tab_name':'SLG'}, | |
| 'on_base_percent':{'format':':.1%','average':df_median.on_base_percent.median(),'a_d_good':True,'tab_name':'OBP'}, | |
| 'sweet_spot_percent':{'format':':.1%','average':df_median.sweet_spot_percent.median(),'a_d_good':True,'tab_name':'SweetSpot%'}, | |
| 'solidcontact_percent':{'format':':.1%','average':df_median.solidcontact_percent.median(),'a_d_good':True,'tab_name':'Solid%'}, | |
| 'flareburner_percent':{'format':':.1%','average':df_median.flareburner_percent.median(),'a_d_good':False,'tab_name':'Flare/Burner%'}, | |
| 'poorlyunder_percent':{'format':':.1%','average':df_median.poorlyunder_percent.median(),'a_d_good':False,'tab_name':'Under%'}, | |
| 'poorlytopped_percent':{'format':':.1%','average':df_median.poorlytopped_percent.median(),'a_d_good':False,'tab_name':'Topped%'}, | |
| 'poorlyweak_percent':{'format':':.1%','average':df_median.poorlyweak_percent.median(),'a_d_good':False,'tab_name':'Weak%'}, | |
| 'hard_hit_percent':{'format':':.1%','average':df_median.hard_hit_percent.median(),'a_d_good':True,'tab_name':'HardHit%'}, | |
| 'z_swing_percent':{'format':':.1%','average':df.in_zone_swing.sum()/df.in_zone.sum(),'a_d_good':True,'tab_name':'Z-Swing%'}, | |
| 'z_swing_miss_percent':{'format':':.1%','average':df.in_zone_swing_miss.sum()/df.in_zone_swing.sum(),'a_d_good':False,'tab_name':'Z-Whiff%'}, | |
| 'out_zone_percent':{'format':':.1%','average':df.out_zone.sum()/df.pitch_count.sum(),'a_d_good':True,'tab_name':'O-Zone%'}, | |
| 'meatball_swing_percent':{'format':':.1%','average':df_median.meatball_swing_percent.median(),'a_d_good':True,'tab_name':'Meatball Swing%'}, | |
| 'meatball_percent':{'format':':.1%','average':df_median.meatball_percent.median(),'a_d_good':True,'tab_name':'Meatball%'}, | |
| 'iz_contact_percent':{'format':':.1%','average':1 - df.in_zone_swing_miss.sum()/df.in_zone_swing.sum(),'a_d_good':True,'tab_name':'Z-Contact%'}, | |
| 'in_zone_percent':{'format':':.1%','average':df.in_zone.mean()/df.pitch_count.sum(),'a_d_good':True,'tab_name':'Zone%'}, | |
| 'oz_swing_percent':{'format':':.1%','average':df.out_zone_swing.sum()/df.out_zone.sum(),'a_d_good':False,'tab_name':'O-Swing%'}, | |
| 'oz_swing_miss_percent':{'format':':.1%','average':df.out_zone_swing_miss.sum()/df.out_zone_swing.sum(),'a_d_good':False,'tab_name':'O-Whiff%'}, | |
| 'oz_contact_percent':{'format':':.1%','average':1 - df.out_zone_swing_miss.sum()/df.out_zone_swing.sum(),'a_d_good':True,'tab_name':'O-Contact%'}, | |
| 'edge_percent':{'format':':.1%','average':df_median.edge_percent.median(),'a_d_good':True,'tab_name':'Edge%'}, | |
| 'whiff_percent':{'format':':.1%','average':(df.in_zone_swing_miss.sum() + df.out_zone_swing_miss.sum()) / (df.in_zone_swing.sum() + df.out_zone_swing.sum()),'a_d_good':False,'tab_name':'Whiff%'}, | |
| 'swstr_percent':{'format':':.1%','average':(df.in_zone_swing_miss.sum() + df.out_zone_swing_miss.sum()) / (df.pitch_count.sum()),'a_d_good':False,'tab_name':'SwStr%'}, | |
| 'swing_percent':{'format':':.1%','average':(df.in_zone_swing.sum() + df.out_zone_swing.sum()) / (df.pitch_count.sum()),'a_d_good':True,'tab_name':'Swing%'}, | |
| 'pull_percent':{'format':':.1%','average':df_median.hit.median(),'a_d_good':True,'tab_name':'Pull%'}, | |
| 'straightaway_percent':{'format':':.1%','average':df_median.hit.median(),'a_d_good':True,'tab_name':'Straightaway%'}, | |
| 'opposite_percent':{'format':':.1%','average':df_median.hit.median(),'a_d_good':True,'tab_name':'Opposite%'}, | |
| 'f_strike_percent':{'format':':.1%','average':df_median.hit.median(),'a_d_good':False,'tab_name':'1st Strike%'}, | |
| 'groundballs_percent':{'format':':.1%','average':df.groundballs.sum()/df.batted_ball.sum(),'a_d_good':False,'tab_name':'GB%'}, | |
| 'flyballs_percent':{'format':':.1%','average':df.flyballs.sum()/df.batted_ball.sum(),'a_d_good':True,'tab_name':'FB%'}, | |
| 'linedrives_percent':{'format':':.1%','average':df.linedrives.sum()/df.batted_ball.sum(),'a_d_good':True,'tab_name':'LD%'}, | |
| 'popups_percent':{'format':':.1%','average':df.popups.sum()/df.batted_ball.sum(),'a_d_good':False,'tab_name':'PU%'},} | |
| column_dict = pd.DataFrame(format_dict.keys(),[format_dict[x]['tab_name'] for x in format_dict.keys()]).reset_index().set_index(0).to_dict()['index'] | |
| def server(input,output,session): | |
| def txt_title(): | |
| if input.player_id() == '': | |
| return 'Select a Player' | |
| player_input = int(input.player_id()) | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| if season_1 < season_2: | |
| season_pick = [season_1,season_2] | |
| elif season_1 > season_2: | |
| season_pick = [season_2,season_1] | |
| if len(str(input.player_id())) == 0: | |
| return 'Select a Batter' | |
| if str(input.season_1()) == str(input.season_2()): | |
| return 'Select Different Seasons' | |
| if len(df[(df.player_id == player_input)&(df.year == season_pick[0])] )== 0 or len(df[(df.player_id == player_input)&(df.year == season_pick[1])] )== 0: | |
| return 'Select Different Seasons' | |
| return f'{player_dict[int(input.player_id())]} Statcast Season Comparison' | |
| def txt_title_compare(): | |
| if type(input.player_id()) is int or input.player_id()=='': | |
| return | |
| if type(input.player_id_2()) is int or input.player_id_2()=='': | |
| return | |
| player_input_1 = int(input.player_id()) | |
| player_input_2 = int(input.player_id_2()) | |
| # season_pick = [input.season_1(),input.season_2()] | |
| columns_i_want = list(input.row_select()) | |
| print(columns_i_want) | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| player_list = [player_input_1,player_input_2] | |
| name_list = [player_dict[int(player_input_1)],player_dict[int(player_input_2)]] | |
| season_pick_list = [season_1,season_2] | |
| if len(str(input.player_id())) == 0: | |
| return 'Select a Batter' | |
| if len(str(input.player_id_2())) == 0: | |
| return 'Select a Batter' | |
| if str(input.player_id()) == str(input.player_id_2()) and str(input.season_1()) == str(input.season_2()): | |
| return 'Select Different Seasons' | |
| if len(df[(df.player_id == player_list[0])&(df.year == season_pick_list[0])] )== 0 or len(df[(df.player_id == player_list[1])&(df.year == season_pick_list[1])])== 0: | |
| return 'No Data for Specified Batter in Given Season' | |
| return f'Statcast Season Comparison' | |
| def text_2022(): | |
| if input.player_id() == '': | |
| return 'Select a Player' | |
| return f'{int(input.season_1())} Season Results Compares to MLB Average' | |
| def text_2022_1(): | |
| if type(input.player_id()) is int or input.player_id()=='': | |
| return | |
| if type(input.player_id_2()) is int or input.player_id_2()=='': | |
| return | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| season_pick_list = [season_1,season_2] | |
| player_input_1 = int(input.player_id()) | |
| player_input_2 = int(input.player_id_2()) | |
| name_list = [player_dict[int(player_input_1)],player_dict[int(player_input_2)]] | |
| return f"{name_list[0]} '{str(season_pick_list[0])[2:]} Season Results Compares to MLB Average" | |
| def text_2023(): | |
| if input.player_id() == '': | |
| return 'Select a Player' | |
| return f'{int(input.season_2())} Season Results Compares to MLB Average' | |
| def text_2023_1(): | |
| if type(input.player_id()) is int or input.player_id()=='': | |
| return | |
| if type(input.player_id_2()) is int or input.player_id_2()=='': | |
| return | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| season_pick_list = [season_1,season_2] | |
| player_input_1 = int(input.player_id()) | |
| player_input_2 = int(input.player_id_2()) | |
| name_list = [player_dict[int(player_input_1)],player_dict[int(player_input_2)]] | |
| return f"{name_list[1]} '{str(season_pick_list[1])[2:]} Season Results Compares to MLB Average" | |
| def text_diff(): | |
| if input.player_id() == '': | |
| return 'Select a Player' | |
| return f'Difference Compares {int(input.season_2())} Results to {int(input.season_1())} Results' | |
| def text_diff_compare(): | |
| if type(input.player_id()) is int or input.player_id()=='': | |
| return | |
| if type(input.player_id_2()) is int or input.player_id_2()=='': | |
| return | |
| player_input_1 = int(input.player_id()) | |
| player_input_2 = int(input.player_id_2()) | |
| name_list = [player_dict[int(player_input_1)],player_dict[int(player_input_2)]] | |
| return f'Difference Compares {name_list[0]} Results to {name_list[1]} Results' | |
| def statcast_compare(): | |
| if input.player_id() == '': | |
| return | |
| if len(str(input.player_id())) == 0: | |
| return | |
| if len(str(input.player_id_2())) == 0: | |
| return | |
| player_input = int(input.player_id()) | |
| # season_pick = [input.season_1(),input.season_2()] | |
| columns_i_want = list(input.row_select()) | |
| print(columns_i_want) | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| if season_1 < season_2: | |
| season_pick = [season_1,season_2] | |
| elif season_1 > season_2: | |
| season_pick = [season_2,season_1] | |
| else: | |
| return | |
| print(df[(df.player_id == player_input)&(df.year == season_pick[0])]) | |
| if len(df[(df.player_id == player_input)&(df.year == season_pick[0])] )== 0 or len(df[(df.player_id == player_input)&(df.year == season_pick[1])] )== 0: | |
| return | |
| df_compare = pd.concat([df[(df.player_id == player_input)&(df.year == season_pick[0])][[ 'player_age', 'pa']+columns_i_want], | |
| df[(df.player_id == player_input)&(df.year == season_pick[1])][[ 'player_age', 'pa']+columns_i_want]]).reset_index(drop=True).T | |
| print('test') | |
| print(sum(df.player_id == input.player_id())) | |
| df_compare.columns = season_pick | |
| df_compare['Difference'] = df_compare.loc[columns_i_want][season_pick[1]] - df_compare.loc[columns_i_want][season_pick[0]] | |
| df_compare_style = df_compare.style.format( | |
| "{:.0f}") | |
| df_compare_style = df_compare_style.set_properties(**{'background-color': 'white', | |
| 'color': 'white'},subset=(['player_age', 'pa'],df_compare_style.columns[2])).set_properties( | |
| **{'min-width':'100px'},overwrite=False).set_table_styles( | |
| [{'selector': 'th:first-child', 'text-align': 'center','props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr:first-child','text-align': 'center', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'index','text-align': 'center', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'th', 'text-align': 'center','props': [('line-height', '40px'),('min-width', '30px')]}],overwrite=False).set_properties( | |
| **{'Height': '20px'},**{'text-align': 'center'},overwrite=False).set_table_styles([{ | |
| 'selector': 'caption', | |
| 'props': [ | |
| ('color', ''), | |
| ('fontname', 'Century Gothic'), | |
| ('font-size', '20px'), | |
| ('font-style', 'italic'), | |
| ('font-weight', ''), | |
| ('text-align', 'centre'), | |
| ] | |
| },{'selector' :'th', 'props':[('text-align', 'center'),('font-size', '20px'),('Height','20px'),('min-width','200px')]},{'selector' :'td', 'props':[('text-align', 'center'),('font-size', '20px'),('min-width','100px')]}],overwrite=False) | |
| for r in columns_i_want: | |
| if format_dict[r]['a_d_good']: | |
| cmap = matplotlib.colors.LinearSegmentedColormap.from_list("", ["#4285F4","white","#FBBC04"]) | |
| else: | |
| cmap = matplotlib.colors.LinearSegmentedColormap.from_list("", ["#FBBC04","white","#4285F4"]) | |
| colormap = plt.get_cmap(cmap) | |
| norm = Normalize(vmin=0.7, vmax=1.3) | |
| normalized_value = norm(df_compare[df_compare.columns[0]][r]/format_dict[r]['average']) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[0])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[0])) | |
| norm = Normalize(vmin=0.7, vmax=1.3) | |
| normalized_value = norm(df_compare[df_compare.columns[1]][r]/format_dict[r]['average']) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[1])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[1])) | |
| norm = Normalize(vmin=0.7, vmax=1.3) | |
| normalized_value = norm(df_compare[df_compare.columns[1]][r]/df_compare[df_compare.columns[0]][r]) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[2])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[2])) | |
| df_compare_style.relabel_index(['Age', 'PA']+[format_dict[x]['tab_name'] for x in columns_i_want]).set_properties( | |
| **{'border': '1px black solid !important'},overwrite=False).set_table_styles( | |
| [{"selector": "", "props": [("border", "1px solid")]}, | |
| {"selector": "tbody td", "props": [("border", "1px solid")]}, | |
| {"selector": "th", "props": [("border", "1px solid")]}],overwrite=False) | |
| #df_compare = df_compare.fillna(np.nan) | |
| return df_compare_style | |
| def statcast_compare_2(): | |
| # if input.player_id() == 0: | |
| # return | |
| if type(input.player_id()) is int or input.player_id()=='': | |
| return | |
| if type(input.player_id_2()) is int or input.player_id_2()=='': | |
| return | |
| # if len(str(input.player_id())) == 0: | |
| # return | |
| player_input_1 = int(input.player_id()) | |
| player_input_2 = int(input.player_id_2()) | |
| # season_pick = [input.season_1(),input.season_2()] | |
| columns_i_want = list(input.row_select()) | |
| print(columns_i_want) | |
| season_1 = max(2015,int(input.season_1())) | |
| season_2 = min(2023,int(input.season_2())) | |
| # if season_1 < season_2: | |
| # season_pick = [season_1,season_2] | |
| # elif season_1 > season_2: | |
| # season_pick = [season_2,season_1] | |
| # else: | |
| # return | |
| #print(df[(df.player_id == player_input)&(df.year == season_pick[0])]) | |
| #player_list = ['Elly De La Cruz','Aaron Judge'] | |
| player_list = [player_input_1,player_input_2] | |
| name_list = [player_dict[int(player_input_1)],player_dict[int(player_input_2)]] | |
| season_pick_list = [season_1,season_2] | |
| if len(df[(df.player_id == player_list[0])&(df.year == season_pick_list[0])] )== 0 or len(df[(df.player_id == player_list[1])&(df.year == season_pick_list[1])] )== 0: | |
| return | |
| if str(input.player_id()) == str(input.player_id_2()) and str(input.season_1()) == str(input.season_2()): | |
| return | |
| df_compare = pd.concat([df[(df.player_id == player_list[0])&(df.year == season_pick_list[0])][[ 'year','player_age', 'pa']+columns_i_want], | |
| df[(df.player_id == player_list[1])&(df.year == season_pick_list[1])][[ 'year','player_age', 'pa']+columns_i_want]]).reset_index(drop=True).T | |
| df_compare.columns = [f"{name_list[0]} '{str(season_pick_list[0])[2:]}",f"{name_list[1]} '{str(season_pick_list[1])[2:]}"] | |
| df_compare['Difference'] = df_compare.loc[columns_i_want][df_compare.columns [0]] - df_compare.loc[columns_i_want][df_compare.columns[1]] | |
| #df_compare = df_compare.fillna(np.nan) | |
| df_compare_style = df_compare.style.format( | |
| "{:.0f}") | |
| df_compare_style = df_compare_style.set_properties(**{'background-color': 'white', | |
| 'color': 'white'},subset=(['year','player_age', 'pa'],df_compare_style.columns[2])).set_properties( | |
| **{'min-width':'125px'},overwrite=False).set_table_styles( | |
| [{'selector': 'th:first-child', 'text-align': 'center','props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr:first-child','text-align': 'center', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'index','text-align': 'center', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'th', 'text-align': 'center','props': [('line-height', '40px'),('min-width', '30px')]}],overwrite=False).set_properties( | |
| **{'Height': '20px'},**{'text-align': 'center'},overwrite=False).set_table_styles([{ | |
| 'selector': 'caption', | |
| 'props': [ | |
| ('color', ''), | |
| ('fontname', 'Century Gothic'), | |
| ('font-size', '20px'), | |
| ('font-style', 'italic'), | |
| ('font-weight', ''), | |
| ('text-align', 'centre'), | |
| ] | |
| },{'selector' :'th', 'props':[('text-align', 'center'),('font-size', '20px'),('Height','20px'),('min-width','200px')]},{'selector' :'td', 'props':[('text-align', 'center'),('font-size', '20px'),('min-width','100px')]}],overwrite=False) | |
| for r in columns_i_want: | |
| if format_dict[r]['a_d_good']: | |
| cmap = matplotlib.colors.LinearSegmentedColormap.from_list("", ["#4285F4","white","#FBBC04"]) | |
| else: | |
| cmap = matplotlib.colors.LinearSegmentedColormap.from_list("", ["#FBBC04","white","#4285F4"]) | |
| colormap = plt.get_cmap(cmap) | |
| norm = Normalize(vmin=0.5, vmax=1.5) | |
| normalized_value = norm(df_compare[df_compare.columns[0]][r]/format_dict[r]['average']) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[0])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[0])) | |
| norm = Normalize(vmin=0.5, vmax=1.5) | |
| normalized_value = norm(df_compare[df_compare.columns[1]][r]/format_dict[r]['average']) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[1])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[1])) | |
| norm = Normalize(vmin=0.8, vmax=1.2) | |
| normalized_value = norm(df_compare[df_compare.columns[0]][r]/df_compare[df_compare.columns[1]][r]) | |
| df_compare_style.format( | |
| f"{{{format_dict[r]['format']}}}",subset=(r,df_compare_style.columns[2])).set_properties(**{'background-color': '#%02x%02x%02x' % (int(colormap(normalized_value)[0] *255), int(colormap(normalized_value)[1] *255), int(colormap(normalized_value)[2] *255)), | |
| 'color': 'black'},subset=(r,df_compare_style.columns[2])) | |
| df_compare_style = df_compare_style | |
| df_compare_style.relabel_index(['Year','Age', 'PA']+[format_dict[x]['tab_name'] for x in columns_i_want]).set_properties( | |
| **{'border': '1px black solid !important'},overwrite=False).set_table_styles( | |
| [{"selector": "", "props": [("border", "1px solid")]}, | |
| {"selector": "tbody td", "props": [("border", "1px solid")]}, | |
| {"selector": "th", "props": [("border", "1px solid")]}],overwrite=False) | |
| #df_compare = df_compare.fillna(np.nan) | |
| return df_compare_style | |
| def colour_scale(): | |
| off_b2b_df = pd.DataFrame(data={'one':-0.30,'two':0,'three':0.30},index=[0]) | |
| off_b2b_df_style = off_b2b_df.style.set_properties(**{'border': '3 px'},overwrite=False).set_table_styles([{ | |
| 'selector': 'caption', | |
| 'props': [ | |
| ('color', ''), | |
| ('fontname', 'Century Gothic'), | |
| ('font-size', '20px'), | |
| ('font-style', 'italic'), | |
| ('font-weight', ''), | |
| ('text-align', 'centre'), | |
| ] | |
| },{'selector' :'th', 'props':[('text-align', 'center'),('Height','px'),('color','black'),( | |
| 'border', '1px black solid !important')]},{'selector' :'td', 'props':[('text-align', 'center'),('font-size', '18px'),('color','black')]}],overwrite=False).set_properties( | |
| **{'background-color':'White','index':'White','min-width':'150px'},overwrite=False).set_table_styles( | |
| [{'selector': 'th:first-child', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr:first-child', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr', 'props': [('line-height', '20px')]}],overwrite=False).set_properties( | |
| **{'Height': '8px'},**{'text-align': 'center'},overwrite=False).set_properties( | |
| **{'background-color':'#4285F4'},subset=off_b2b_df.columns[0]).set_properties( | |
| **{'background-color':'white'},subset=off_b2b_df.columns[1]).set_properties( | |
| **{'background-color':'#FBBC04'},subset=off_b2b_df.columns[2]).set_properties( | |
| **{'color':'black'},subset=off_b2b_df.columns[:]).hide_index().set_table_styles([ | |
| {'selector': 'thead', 'props': [('display', 'none')]} | |
| ]).set_properties(**{'border': '3 px','color':'black'},overwrite=False).set_properties( | |
| **{'border': '1px black solid !important'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:]))).set_properties( | |
| **{'min-width':'130'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:])),overwrite=False).set_properties(**{ | |
| 'color': 'black'},overwrite=False).set_properties( | |
| **{'border': '1px black solid !important'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:]))) .format( | |
| "{:+.0%}") | |
| return off_b2b_df_style | |
| def colour_scale_2(): | |
| off_b2b_df = pd.DataFrame(data={'one':-0.30,'two':0,'three':0.30},index=[0]) | |
| off_b2b_df_style = off_b2b_df.style.set_properties(**{'border': '3 px'},overwrite=False).set_table_styles([{ | |
| 'selector': 'caption', | |
| 'props': [ | |
| ('color', ''), | |
| ('fontname', 'Century Gothic'), | |
| ('font-size', '20px'), | |
| ('font-style', 'italic'), | |
| ('font-weight', ''), | |
| ('text-align', 'centre'), | |
| ] | |
| },{'selector' :'th', 'props':[('text-align', 'center'),('Height','px'),('color','black'),( | |
| 'border', '1px black solid !important')]},{'selector' :'td', 'props':[('text-align', 'center'),('font-size', '18px'),('color','black')]}],overwrite=False).set_properties( | |
| **{'background-color':'White','index':'White','min-width':'150px'},overwrite=False).set_table_styles( | |
| [{'selector': 'th:first-child', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr:first-child', 'props': [('background-color', 'white')]}],overwrite=False).set_table_styles( | |
| [{'selector': 'tr', 'props': [('line-height', '20px')]}],overwrite=False).set_properties( | |
| **{'Height': '8px'},**{'text-align': 'center'},overwrite=False).set_properties( | |
| **{'background-color':'#4285F4'},subset=off_b2b_df.columns[0]).set_properties( | |
| **{'background-color':'white'},subset=off_b2b_df.columns[1]).set_properties( | |
| **{'background-color':'#FBBC04'},subset=off_b2b_df.columns[2]).set_properties( | |
| **{'color':'black'},subset=off_b2b_df.columns[:]).hide_index().set_table_styles([ | |
| {'selector': 'thead', 'props': [('display', 'none')]} | |
| ]).set_properties(**{'border': '3 px','color':'black'},overwrite=False).set_properties( | |
| **{'border': '1px black solid !important'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:]))).set_properties( | |
| **{'min-width':'130'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:])),overwrite=False).set_properties(**{ | |
| 'color': 'black'},overwrite=False).set_properties( | |
| **{'border': '1px black solid !important'},subset = ((list(off_b2b_df.index[:]),off_b2b_df.columns[:]))) .format( | |
| "{:+.0%}") | |
| return off_b2b_df_style | |
| # test = test.fillna(0) | |
| #test['PP TOI'] = ["%d:%02d" % (int(x),(x*60)%60) if x>0 else '0:00' for x in test['PP TOI']] | |
| statcast_compare = App(ui.page_fluid( | |
| ui.tags.base(href=base_url), | |
| ui.tags.div( | |
| {"style": "width:90%;margin: 0 auto;max-width: 1600px;"}, | |
| ui.tags.style( | |
| """ | |
| h4 { | |
| margin-top: 1em;font-size:35px; | |
| } | |
| h2{ | |
| font-size:25px; | |
| } | |
| """ | |
| ), | |
| shinyswatch.theme.simplex(), | |
| ui.tags.h4("TJStats"), | |
| ui.tags.i("Baseball Analytics and Visualizations"), | |
| ui.markdown("""<a href='https://www.patreon.com/tj_stats'>Support me on Patreon for Access to 2024 Apps</a><sup>1</sup>"""), | |
| ui.navset_tab( | |
| ui.nav_control( | |
| ui.a( | |
| "Home", | |
| href="home/" | |
| ), | |
| ), | |
| ui.nav_menu( | |
| "Batter Charts", | |
| ui.nav_control( | |
| ui.a( | |
| "Batting Rolling", | |
| href="rolling_batter/" | |
| ), | |
| ui.a( | |
| "Spray & Damage", | |
| href="spray/" | |
| ), | |
| ui.a( | |
| "Decision Value", | |
| href="decision_value/" | |
| ), | |
| # ui.a( | |
| # "Damage Model", | |
| # href="damage_model/" | |
| # ), | |
| ui.a( | |
| "Batter Scatter", | |
| href="batter_scatter/" | |
| ), | |
| # ui.a( | |
| # "EV vs LA Plot", | |
| # href="ev_angle/" | |
| # ), | |
| ui.a( | |
| "Statcast Compare", | |
| href="statcast_compare/" | |
| ) | |
| ), | |
| ), | |
| ui.nav_menu( | |
| "Pitcher Charts", | |
| ui.nav_control( | |
| ui.a( | |
| "Pitcher Rolling", | |
| href="rolling_pitcher/" | |
| ), | |
| ui.a( | |
| "Pitcher Summary", | |
| href="pitching_summary_graphic_new/" | |
| ), | |
| ui.a( | |
| "Pitcher Scatter", | |
| href="pitcher_scatter/" | |
| ) | |
| ), | |
| )),ui.row( | |
| ui.layout_sidebar( | |
| ui.panel_sidebar( | |
| #ui.input_date_range("date_range_id", "Date range input",start = statcast_df.game_date.min(), end = statcast_df.game_date.max()), | |
| ui.input_select("player_id", "Select Player 1",player_dict,width=1,size=1,selectize=True,multiple=False,selected=592450), | |
| ui.input_select("player_id_2", "Select Player 2 (For Player Compare Tab)",player_dict,width=1,size=1,selectize=True,multiple=False,selected=592450), | |
| ui.input_numeric("season_1", "Season 1", value=2022,min=2015,max=2023), | |
| ui.input_numeric("season_2", "Season 2", value=2023,min=2015,max=2023), | |
| ui.input_select("row_select", "Select Stats", | |
| column_dict,width=1,size=1,selectize=True, | |
| multiple=True, | |
| selected=['k_percent','bb_percent','woba','xwoba','iz_contact_percent','oz_swing_percent','whiff_percent']), | |
| ui.input_action_button("go", "Generate",class_="btn-primary", | |
| )), | |
| ui.panel_main(ui.tags.h3(""), | |
| ui.navset_tab( | |
| ui.nav("Single Player", | |
| ui.div({"style": "font-size:2.1em;"},ui.output_text("txt_title")), | |
| #ui.tags.h2("Fantasy Hockey Schedule Summary"), | |
| ui.tags.h5("Created By: @TJStats, Data: MLB"), | |
| #ui.div({"style": "font-size:1.6em;"},ui.output_text("txt")), | |
| ui.output_table("statcast_compare"), | |
| #ui.tags.h5('Legend'), | |
| ui.tags.h3(""), | |
| ui.tags.h5('Colour Scale:'), | |
| ui.output_table("colour_scale"), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_2022")), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_2023")), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_diff"))), | |
| ui.nav("Player Compare", | |
| ui.div({"style": "font-size:2.1em;"},ui.output_text("txt_title_compare")), | |
| #ui.tags.h2("Fantasy Hockey Schedule Summary"), | |
| ui.tags.h5("Created By: @TJStats, Data: MLB"), | |
| #ui.div({"style": "font-size:1.6em;"},ui.output_text("txt")), | |
| ui.output_table("statcast_compare_2"), | |
| ui.tags.h3(""), | |
| ui.tags.h5('Colour Scale:'), | |
| ui.output_table("colour_scale_2"), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_2022_1")), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_2023_1")), | |
| ui.div({"style": "font-size:1em;"},ui.output_text("text_diff_compare"))) | |
| ) | |
| ), | |
| )),)),server) |