2024_mlb_pitch_heat_maps / pitcher_scatter.py
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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
exit_velo_df_codes_summ = pd.read_csv('summary_pitcher.csv',index_col=[0]).reset_index(drop=True)
exit_velo_df_codes_summ_non_level = pd.read_csv('summary_pitcher_level.csv',index_col=[0]).reset_index(drop=True)
exit_velo_df_codes_summ_non_level['levels'] = exit_velo_df_codes_summ_non_level.levels.str.split(', ')
exit_velo_df_codes_summ_non_level = exit_velo_df_codes_summ_non_level.rename(columns={'levels':'level'})
print(exit_velo_df_codes_summ.bb_minus_k_percent)
exit_velo_df_codes_summ.bb_minus_k_percent = -1*exit_velo_df_codes_summ.bb_minus_k_percent
exit_velo_df_codes_summ.bb_over_k_percent = exit_velo_df_codes_summ.k_percent/exit_velo_df_codes_summ.bb_percent
exit_velo_df_codes_summ_non_level.bb_minus_k_percent = -1*exit_velo_df_codes_summ_non_level.bb_minus_k_percent
exit_velo_df_codes_summ_non_level.bb_over_k_percent = exit_velo_df_codes_summ_non_level.k_percent/exit_velo_df_codes_summ_non_level.bb_percent
pitcher_dict_stat = { 'sweet_spot_percent':{'x_axis':'SweetSpot%','title':'SweetSpot%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'max_launch_speed':{'x_axis':'Max Exit Velocity','title':'Max Exit Velocity','flip_p':False,'decimal_format':'string_0','percent_adjust':1},
'launch_speed_90':{'x_axis':'90th Percentile EV','title':'90th Percentile EV','flip_p':False,'decimal_format':'string_0','percent_adjust':1},
'launch_speed':{'x_axis':'Exit Velocity','title':'Exit Velocity','flip_p':False,'decimal_format':'string_0','percent_adjust':1},
'launch_angle':{'x_axis':'Launch Angle','title':'Launch Angle','flip_p':False,'decimal_format':'string_0','percent_adjust':100},
'avg':{'x_axis':'AVG','title':'AVG','flip_p':False,'decimal_format':'string_3','percent_adjust':100},
'obp':{'x_axis':'OBP','title':'OBP','flip_p':False,'decimal_format':'string_3','percent_adjust':100},
'slg':{'x_axis':'SLG','title':'SLG','flip_p':False,'decimal_format':'string_3','percent_adjust':100},
'ops':{'x_axis':'OPS','title':'OPS','flip_p':False,'decimal_format':'string_3','percent_adjust':100},
'k_percent':{'x_axis':'K%','title':'K%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'bb_percent':{'x_axis':'BB%','title':'BB%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'bb_over_k_percent':{'x_axis':'K/BB','title':'K/BB','flip_p':True,'decimal_format':'string_1','percent_adjust':100},
'bb_minus_k_percent':{'x_axis':'K%-BB%','title':'K%-BB%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'csw_percent':{'x_axis':'CSW%','title':'CSW%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'woba_percent':{'x_axis':'wOBA','title':'wOBA','flip_p':False,'decimal_format':'string_3','percent_adjust':100},
'hard_hit_percent':{'x_axis':'HardHit%','title':'HardHit%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'barrel_percent':{'x_axis':'Barrel%','title':'Barrel%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'zone_contact_percent':{'x_axis':'Z-Contact%','title':'Z-Contact%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'zone_swing_percent':{'x_axis':'Z-Swing%','title':'Z-Swing%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'zone_percent':{'x_axis':'Zone%','title':'Zone%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'chase_percent':{'x_axis':'O-Swing%','title':'O-Swing%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'chase_contact':{'x_axis':'O-Contact%','title':'O-Contact%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'swing_percent':{'x_axis':'Swing%','title':'Swing%','flip_p':False,'decimal_format':'percent_1','percent_adjust':100},
'whiff_rate':{'x_axis':'Whiff%','title':'Whiff%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
'swstr_rate':{'x_axis':'SwStr%','title':'SwStr%','flip_p':True,'decimal_format':'percent_1','percent_adjust':100},
}
pitcher_dict_stat_small = { 'sweet_spot_percent':'SweetSpot%',
'max_launch_speed':'Max Exit Velocity',
'launch_speed_90':'90th Percentile EV',
'launch_speed':'Exit Velocity',
'launch_angle':'Launch Angle',
'avg':'AVG',
'obp':'OBP',
'slg':'SLG',
'ops':'OPS',
'k_percent':'K%',
'bb_percent':'BB%',
'bb_over_k_percent':'K/BB',
'bb_minus_k_percent':'K%-BB%',
'csw_percent':'CSW%',
'woba_percent':'wOBA',
'hard_hit_percent':'HardHit%',
'barrel_percent':'Barrel%',
'zone_contact_percent':'Z-Contact%',
'zone_swing_percent':'Z-Swing%',
'zone_percent':'Zone%',
'chase_percent':'O-Swing%',
'chase_contact':'O-Contact%',
'swing_percent':'Swing%',
'whiff_rate':'Whiff%',
'swstr_rate':'SwStr%',
}
colour_palette = ['#FFB000','#648FFF','#785EF0',
'#DC267F','#FE6100','#3D1EB2','#894D80','#16AA02','#B5592B','#A3C1ED']
level_dict = {'MLB':'MLB','AAA':'AAA','AA':'AA','A+':'A+','A':'A','ROK':'ROK'}
batter_test_df = exit_velo_df_codes_summ.sort_values(by='pitcher').drop_duplicates(subset='pitcher_id').reset_index(drop=True)[['pitcher_id','pitcher']]#['pitcher'].to_dict()
batter_test_df = batter_test_df.set_index('pitcher_id')
def decimal_format_assign(x):
if x['decimal_format'] == 'percent_1':
return mtick.PercentFormatter(1,decimals=1)
if x['decimal_format'] == 'string_3':
return mtick.FormatStrFormatter('%.3f')
if x['decimal_format'] == 'string_0':
return mtick.FormatStrFormatter('%.0f')
if x['decimal_format'] == 'string_1':
return mtick.FormatStrFormatter('%.1f')
#test_df = test_df[test_df.pitcher == 'Chris Bassitt'].append(test_df[test_df.pitcher != 'Chris Bassitt'])
pitcher_dict = batter_test_df['pitcher'].to_dict()
exit_velo_df_codes_summ.position = exit_velo_df_codes_summ.position.replace(['TWP'],['P'])
exit_velo_df_codes_summ_non_level.position = exit_velo_df_codes_summ_non_level.position.replace(['TWP'],['P'])
position_list = ['All'] + list(exit_velo_df_codes_summ.position.unique())
team_list = ['All'] + sorted(list(exit_velo_df_codes_summ.parent_org_abb.unique()))
def server(input,output,session):
@output
@render.plot(alt="A histogram")
@reactive.event(input.go, ignore_none=False)
def plot():
sns.set_theme(style="whitegrid", palette="pastel")
print(input.level_id())
print(input.n())
print('we made it here')
#data_df = exit_velo_df_codes_summ.copy()
if input.group_level():
data_df = exit_velo_df_codes_summ_non_level.copy()
turth_list = []
#turth_list_2 = []
for x in range(0,len(data_df.level)):
turth_list_2 = []
for y in range(0,len(data_df.level[x])):
#print(level_list[x][y])
turth_list_2.append(data_df.level[x][y] in input.level_id())
turth_list.append(turth_list_2)
final_check_list = [True if True in x else False for x in turth_list]
data_df = data_df[(data_df.pa >= input.n())&(data_df.age <= input.n_age())&(final_check_list)]
else:
data_df = exit_velo_df_codes_summ.copy()
data_df = data_df[(data_df.pa >= input.n())&(data_df.age <= input.n_age())&(data_df.level.isin(input.level_id()))]
print(data_df)
if 'All' in input.team_id():
print('nice')#data_df = data_df[(data_df.pa >= input.n())&(data_df.age <= input.n_age())].reset_index(drop=True)
else:
data_df = data_df[(data_df.parent_org_abb.isin(input.team_id()))].reset_index(drop=True)
if 'All' in input.position_id():
print('nice')#data_df = data_df[(data_df.level.isin(input.level_id()))&(data_df.pa >= input.n())&(data_df.age <= input.n_age())].reset_index(drop=True)
else:
data_df = data_df[(data_df.position.isin(input.position_id()))].reset_index(drop=True)
data_df = data_df.sort_values(by='level').reset_index(drop=True)
print(pitcher_dict_stat[input.stat_x()]['flip_p'])
x_flip = pitcher_dict_stat[input.stat_x()]['flip_p']
y_flip = pitcher_dict_stat[input.stat_y()]['flip_p']
cbr_flip = pitcher_dict_stat[input.stat_z()]['flip_p']
data_df[input.stat_x()+'_percent'] = data_df[input.stat_x()].rank(pct=True,ascending=abs(x_flip-1))
data_df[input.stat_y()+'_percent'] = data_df[input.stat_y()].rank(pct=True,ascending=abs(y_flip-1))
data_df[input.stat_z()+'_percent'] = data_df[input.stat_z()].rank(pct=True,ascending=abs(cbr_flip-1))
fig, ax = plt.subplots(1, 1, figsize=(9, 9))
#data_df['bb_over_obp'] = data_df['bb']/data_df['k']
#data_df[input.stat_z()]= data_df[input.stat_z()].fillna(-100000)
if not cbr_flip:
cmap_hue = matplotlib.colors.LinearSegmentedColormap.from_list("", [colour_palette[0],colour_palette[3],colour_palette[1]])
norm = plt.Normalize(data_df[input.stat_z()].min(), data_df[input.stat_z()].max())
else:
cmap_hue = matplotlib.colors.LinearSegmentedColormap.from_list("", [colour_palette[1],colour_palette[3],colour_palette[0]])
norm = plt.Normalize(data_df[input.stat_z()].min(), data_df[input.stat_z()].max())
sm = plt.cm.ScalarMappable(cmap=cmap_hue, norm=norm)
print('we made it here')
# sns.regplot(x = stat_x, y = stat_y, data=data_df, color = colour_palette[6],ax=ax,scatter=False,
# line_kws=dict(alpha=0.3,linewidth=2,zorder=1))
# scatter_plot = sns.scatterplot(x = stat_x, y = stat_y, data=data_df, color = colour_palette[0],ax=ax,hue=stat_z,palette=cmap_hue)
# r, p = sp.stats.pearsonr(data_df[input.stat_x()], data_df[input.stat_y()])
# ax = plt.gca()
# # ax.text(.25, 0.3, 'r={:.2f}, p={:.2g}'.format(r, p),
# # transform=ax.transAxes, fontsize=12)
# ax.annotate('R²={:.2f}'.format(r, p), ( math.ceil(data_df[input.stat_x()].max()*pitcher_dict_stat[input.stat_x()]['percent_adjust']/5)*5/pitcher_dict_stat[input.stat_x()]['percent_adjust']*(1-pitcher_dict_stat[input.stat_x()]['flip_p']),
# math.floor(data_df[input.stat_y()].min()*pitcher_dict_stat[input.stat_y()]['percent_adjust']/5)*5/pitcher_dict_stat[input.stat_y()]['percent_adjust']*(1-pitcher_dict_stat[input.stat_y()]['flip_p'])),
# fontsize=18,fontname='Century Gothic',ha='right')
if input.group_level():
scatter = sns.scatterplot(x = input.stat_x(), y = input.stat_y(), data=data_df, color = '#b3b3b3')
#ax.get_legend().remove()
scatter = sns.scatterplot(x = input.stat_x(), y = input.stat_y(), data=data_df, color = colour_palette[0],ax=ax,hue=input.stat_z(),palette=cmap_hue)
else:
scatter = sns.scatterplot(x = input.stat_x(), y = input.stat_y(), data=data_df, color = '#b3b3b3',style='level')
#ax.get_legend().remove()
scatter = sns.scatterplot(x = input.stat_x(), y = input.stat_y(), data=data_df, color = colour_palette[0],ax=ax,hue=input.stat_z(),palette=cmap_hue,style='level')
sns.set_theme(style="whitegrid", palette="pastel")
fig.set_facecolor('#F0F0F0')
ax.set_facecolor('white')
print('we made it here!')
# for i in range(0,len(pitch_group_unique)):
# data_df = elly_zone_df[elly_zone_df.pitch_group==pitch_group_unique[i]]
# len_df.append(len(data_df))
# sns.lineplot(x=range(1,len(data_df)+1),y=data_df.swings.rolling(window=rolling_window_input).sum()/data_df.pitches.rolling(window=rolling_window_input).sum(),color=colour_palette[i],linewidth=3,ax=ax,
# label=f'{pitch_group_unique[i]} (Season Average {float(data_df.swings.sum()/data_df.pitches.sum()):.1%})',zorder=i+10)
# ax.hlines(xmin=0,xmax=len(elly_zone_df),y=data_df.swings.sum()/data_df.pitches.sum(),color=colour_palette[i],linewidth=3,linestyle='-.',alpha=0.4,zorder=i)
ts=[]
xs=[]
ys=[]
labels=[]
print(input.player_id())
if input.names():
for i in range(len(data_df)):
if (data_df[input.stat_x()+'_percent'][i] < input.n_percent_bot_x() or data_df[input.stat_x()+'_percent'][i] > 1 - input.n_percent_top_x() ) \
or (data_df[input.stat_y()+'_percent'][i] < input.n_percent_bot_y() or data_df[input.stat_y()+'_percent'][i] > 1 -input.n_percent_top_y()) \
or (data_df[input.stat_z()+'_percent'][i] < input.n_percent_bot_z() or data_df[input.stat_z()+'_percent'][i] > 1 -input.n_percent_top_z() )\
or (str(data_df.pitcher_id[i]) in (input.player_id())):
ts.append(ax.text(data_df[input.stat_x()][i], data_df[input.stat_y()][i], data_df.pitcher[i],fontsize=8))
# ax.annotate(data_df.pitcher[i], xy=((data_df[input.stat_x()][i])+0.025/pitcher_dict_stat[input.stat_x()]['percent_adjust'], data_df[input.stat_y()][i]+0.01/pitcher_dict_stat[input.stat_x()]['percent_adjust']), xytext=(-20,20),
# textcoords='offset points', ha='center', va='bottom',fontsize=7,
# bbox=dict(boxstyle='round,pad=0', fc=colour_palette[6], alpha=0.0),
# arrowprops=dict(arrowstyle='->', connectionstyle="angle,angleA=-90,angleB=-10,rad=5",
# color=colour_palette[4]))
# print('CONDITION CHEK')
# print(data_df[input.stat_x()][i])
# #if data_df['pitcher'][i] != 'Jo Adell':
# #ax.annotate(data_df.pitcher[i], ((data_df[input.stat_x()][i])+0.025/pitcher_dict_stat[input.stat_x()]['percent_adjust'], data_df[input.stat_y()][i]+0.01/pitcher_dict_stat[input.stat_x()]['percent_adjust']),fontsize=8)
# #ts.append(data_df[input.stat_x()][i], data_df[input.stat_y()][i], data_df.pitcher[i],fontsize=8))
# xs.append(data_df[input.stat_x()][i])
# ys.append(data_df[input.stat_y()][i])
# labels.append(data_df.pitcher[i])
# # adjust_text(ts, force_points=0.2, force_text=0.2,
# # expand_points=(1, 1), expand_text=(1, 1),
# # arrowprops=dict(arrowstyle="-", color='black', lw=0))
# #print(xs)
# if len(xs)>0:
# repel_labels(ax=ax, x = xs,y = ys, labels = labels, k=0.0025)
ax.hlines(xmin=math.floor((data_df[input.stat_x()].min()*pitcher_dict_stat[input.stat_x()]['percent_adjust']-0.01)/5)*5/pitcher_dict_stat[input.stat_x()]['percent_adjust'],
xmax= math.ceil((data_df[input.stat_x()].max()*pitcher_dict_stat[input.stat_x()]['percent_adjust']+0.01)/5)*5/pitcher_dict_stat[input.stat_x()]['percent_adjust'],
y=data_df[input.stat_y()].mean(),color='gray',linewidth=3,linestyle='dotted',alpha=0.4)
print('we made it here')
ax.vlines(ymin=(math.floor(data_df[input.stat_y()].min()*pitcher_dict_stat[input.stat_y()]['percent_adjust']-0.01)/5)*5/pitcher_dict_stat[input.stat_y()]['percent_adjust'],
ymax= (math.ceil(data_df[input.stat_y()].max()*pitcher_dict_stat[input.stat_y()]['percent_adjust']+0.01)/5)*5/pitcher_dict_stat[input.stat_y()]['percent_adjust'],
x=data_df[input.stat_x()].mean(),color='gray',linewidth=3,linestyle='dotted',alpha=0.4)
ax.set_xlim((math.floor(data_df[input.stat_x()].min()*pitcher_dict_stat[input.stat_x()]['percent_adjust']-0.01)/5)*5/pitcher_dict_stat[input.stat_x()]['percent_adjust'],
(math.ceil(data_df[input.stat_x()].max()*pitcher_dict_stat[input.stat_x()]['percent_adjust']+0.01)/5)*5/pitcher_dict_stat[input.stat_x()]['percent_adjust'])
ax.set_ylim((math.floor(data_df[input.stat_y()].min()*pitcher_dict_stat[input.stat_y()]['percent_adjust']-0.01)/5)*5/pitcher_dict_stat[input.stat_y()]['percent_adjust'],
(math.ceil(data_df[input.stat_y()].max()*pitcher_dict_stat[input.stat_y()]['percent_adjust']+0.01)/5)*5/pitcher_dict_stat[input.stat_y()]['percent_adjust'])
title_level = str([x .strip("\'")for x in input.level_id()]).strip('[').strip(']').replace("'",'')
if title_level == 'AAA, AA, A+, A':
title_level='MiLB'
if input.n_age() >= 50:
title_spot = f'{title_level} Pitcher {pitcher_dict_stat[input.stat_y()]["title"]} vs {pitcher_dict_stat[input.stat_x()]["title"]} (min. {input.n()} PA)'
else:
title_spot = f'{title_level} Pitcher {pitcher_dict_stat[input.stat_y()]["title"]} vs {pitcher_dict_stat[input.stat_x()]["title"]} (min. {input.n()} PA, Max Age {input.n_age()})'
#title_level = input.level_id()[0]
#title_spot = f'{title_level} pitcher {pitcher_dict_stat[input.stat_y()]["title"]} vs {pitcher_dict_stat[input.stat_x()]["title"]} (min. {input.n()} PA)'
ax.set_title(title_spot, fontsize=24/(len(title_spot)*0.03),fontname='Century Gothic')
# #vals = ax.get_yticks()
ax.set_xlabel(pitcher_dict_stat[input.stat_x()]['x_axis'], fontsize=16,fontname='Century Gothic')
ax.set_ylabel(pitcher_dict_stat[input.stat_y()]['x_axis'], fontsize=16,fontname='Century Gothic')
if input.group_level():
ax.get_legend().remove()
if not input.group_level():
if len(input.level_id()) > 1:
h,l = scatter.get_legend_handles_labels()
l[-(len(input.level_id())+1)] = 'Level'
ax.legend(h[-(len(input.level_id())+1):],l[-(len(input.level_id())+1):], borderaxespad=0.1,loc=0)
else:
ax.get_legend().remove()
#plt.show(g)
# ax.figure.colorbar(sm, ax=ax)
cbar = ax.figure.colorbar(sm, ax=ax,format=decimal_format_assign(x=pitcher_dict_stat[input.stat_z()]),orientation='vertical',aspect=30)
cbar.set_label(pitcher_dict_stat[input.stat_z()]['x_axis'])
#fig.axes[0].invert_yaxis()
print('we made it here5')
fig.subplots_adjust(wspace=.02, hspace=.02)
# ax.xaxis.set_major_formatter(FuncFormatter(lambda x, _: int(x)))
#ax.set_yticks([0,0.1,0.2,0.3,0.4,0.5])
# fig.colorbar(plot_dist, ax=ax)
# fig.colorbar(plot_dist)
if not pitcher_dict_stat[input.stat_x()]['flip_p']:
fig.axes[0].invert_xaxis()
if not pitcher_dict_stat[input.stat_y()]['flip_p']:
fig.axes[0].invert_yaxis()
# ax.xaxis.set_major_formatter(mtick.PercentFormatter(1,decimals=0))
# ax.yaxis.set_major_formatter(mtick.PercentFormatter(1))
print('we made it here6')
ax.xaxis.set_major_formatter(decimal_format_assign(x=pitcher_dict_stat[input.stat_x()]))
ax.yaxis.set_major_formatter(decimal_format_assign(x=pitcher_dict_stat[input.stat_y()]))
print('we made it here7')
# ax.text(0.5, 0.5, '/u/tomstoms', transform=ax.transAxes,
# fontsize=60, color='gray', alpha=0.075,
# ha='center', va='center', rotation=45)
adjust_text(ts,
arrowprops=dict(arrowstyle="-", color=colour_palette[4], lw=1),ax=ax)
#ax.legend(fontsize='16')
fig.text(x=0.03,y=0.02,s='By: @TJStats',fontname='Century Gothic')
fig.text(x=1-0.03,y=0.02,s='Data: MLB',ha='right',fontname='Century Gothic')
fig.tight_layout()
pitcher_scatter = 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_select("id", "Select Batter",batter_dict,selected=675911,width=1,size=1),
ui.row(
ui.column(4,ui.input_select("level_id", "Select Level",level_dict,width=1,size=1,multiple=True,selected='MLB',selectize=True),),
ui.column(4,ui.input_select("team_id", "Select Team",team_list,width=1,size=1,multiple=True,selected='All',selectize=True),),
ui.column(4,ui.input_select("position_id", "Select Position",position_list,width=1,size=1,selected='All',multiple=True,selectize=True))),
ui.row(
ui.column(6,ui.input_numeric("n", "Minimum PA", value=100)),
ui.column(6,ui.input_numeric("n_age", "Maximum Age", value=50))),
ui.row(
ui.column(4,ui.input_select("stat_x", "X-Axis",pitcher_dict_stat_small,selected='k_percent',width=1,size=1)),
ui.column(4,ui.input_select("stat_y", "Y-Axis",pitcher_dict_stat_small,selected='bb_percent',width=1,size=1)),
ui.column(4,ui.input_select("stat_z", "Colour-Bar Axis",pitcher_dict_stat_small,selected='bb_minus_k_percent',width=1,size=1))),
ui.row(
ui.column(6,ui.input_numeric("n_percent_top_x", "Top 'n' Percentile X-Labels", value=0.01)),
ui.column(6,ui.input_numeric("n_percent_bot_x", "Bottom 'n' Percentile X-Labels", value=0.01))),
ui.row(
ui.column(6,ui.input_numeric("n_percent_top_y", "Top 'n' Percentile Y-Labels", value=0.01)),
ui.column(6,ui.input_numeric("n_percent_bot_y", "Bottom 'n' Percentile Y-Labels", value=0.01))),
ui.row(
ui.column(6,ui.input_numeric("n_percent_top_z", "Top 'n' Percentile Z-Labels", value=0.01)),
ui.column(6,ui.input_numeric("n_percent_bot_z", "Bottom 'n' Percentile Z-Labels", value=0.01))),
ui.input_select("player_id", "Label Player",pitcher_dict,width=1,size=1,multiple=True,selectize=True),
ui.row(
ui.input_switch("names", "Toggle Names"),
ui.input_switch("group_level", "Group Levels")),
ui.input_action_button("go", "Generate",class_="btn-primary"),
),
ui.panel_main(
ui.output_plot("plot",height = "1000px",width="1000px")
,
),
)),)),server)