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app.py
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import streamlit as st
import pandas as pd
import altair as alt
import numpy as np
import json
from os import listdir
from os.path import dirname, abspath, join, isfile
import vegafusion as vf
vf.enable()
from Modules import Run, compute_sectors_deltas, compute_sectors_comparison, laps_df
from Modules.circuit import CircuitChart
alt.data_transformers.disable_max_rows()
# ---------- DATA LOADING ----------
with open(join(dirname(abspath(__file__)), 'data', 'info.json'), 'r') as f:
INFO = json.load(f)
RUNS = list(INFO.keys())
RUN_OBJECTS_DICT = {}
for run in RUNS:
run_object = None
for f in listdir(join(dirname(abspath(__file__)), 'data', run)):
if isfile(join(dirname(abspath(__file__)), 'data', run, f)) and f.endswith('.csv'):
new_run_object = Run(join(dirname(abspath(__file__)), 'data', run, f), info=INFO[run], filename=f)
run_object = new_run_object if run_object is None else run_object + new_run_object
RUN_OBJECTS_DICT[run] = run_object
# ---------- APP SETUP ----------
st.set_page_config(
page_title="DPA Visualization Tool",
page_icon=":checkered_flag:",
# page_icon="🏎",
layout="wide",
initial_sidebar_state="expanded",
)
header_panel = st.container()
run_panel = st.container()
lap_panel = st.container()
# ---------- HEADER ----------
with header_panel:
st.title('DPA Visualization Tool')
# ---------- SELECTORS ----------
with st.sidebar:
st.header('Select run and lap')
run_selector = st.selectbox(
'Select circuit',
RUNS,
index=0
)
lapA_selector = st.selectbox(
label = 'Select lap A',
options = ['<select>'] + list(range(len(RUN_OBJECTS_DICT[run_selector].laps))),
format_func = lambda x: f"Lap {x} [{RUN_OBJECTS_DICT[run_selector].laps[x].driver}]" if x != '<select>' else x,
index=0
)
lapB_options = set(range(len(RUN_OBJECTS_DICT[run_selector].laps))) - (set([lapA_selector]) if lapA_selector != '<select>' else set())
lapB_options = ['<select>'] + list(lapB_options)
lapB_selector = st.selectbox(
'Select lap B',
options = lapB_options,
format_func = lambda x: f"Lap {x} [{RUN_OBJECTS_DICT[run_selector].laps[x].driver}]" if x != '<select>' else x,
index=0,
disabled = True if lapA_selector == '<select>' else False
)
if lapB_selector != '<select>' and lapA_selector > lapB_selector:
lapA_selector, lapB_selector = lapB_selector, lapA_selector
if lapB_selector != '<select>':
laps_data_frame = laps_df(RUN_OBJECTS_DICT[run_selector].laps, RUN_OBJECTS_DICT[run_selector].info, lapA_selector, lapB_selector)
elif lapA_selector != '<select>':
laps_data_frame = laps_df(RUN_OBJECTS_DICT[run_selector].laps, RUN_OBJECTS_DICT[run_selector].info, lapA_selector)
else:
laps_data_frame = laps_df(RUN_OBJECTS_DICT[run_selector].laps, RUN_OBJECTS_DICT[run_selector].info)
st.dataframe(laps_data_frame)
# ---------- RUN PANEL ----------
try:
with open(join(dirname(abspath(__file__)), 'data', run_selector, 'turns.json'), 'r') as f:
turns_json = json.load(f)
except FileNotFoundError:
turns_json = None
with run_panel:
st.divider()
st.header('Run overview')
laps_tab, drivers_tab = st.tabs(['Laps', 'Drivers'])
with laps_tab:
radars_panel, harshness_panel = st.columns([2,1])
if turns_json is None:
st.error('No turns data available, please build the turns data for this run first.')
else:
with radars_panel:
if lapA_selector == '<select>':
mean_v_chart, out_v_chart, braking_point_chart = RUN_OBJECTS_DICT[run_selector].braking_charts(turns_json)
else:
lap_numbers = [lapA_selector, lapB_selector] if lapB_selector != '<select>' else [lapA_selector]
mean_v_chart, out_v_chart, braking_point_chart = RUN_OBJECTS_DICT[run_selector].braking_charts(turns_json, laps=lap_numbers)
columns = st.columns(2)
with columns[0]:
st.altair_chart(mean_v_chart)
with columns[1]:
st.altair_chart(out_v_chart)
st.altair_chart(braking_point_chart)
with st.expander('Circuit Turns explanation', expanded=False):
if turns_json is None:
st.write('No turns data available, please build the turns data for this run first.')
else:
st.write('The following chart shows the circuit turns. These turns have been manually defined with microsectors, hovering the mouse over the chart you can see the turn number and the microsector number.')
circuit = CircuitChart(seed=int(run_selector.split(':')[1]), random_orientation=False)
st.altair_chart(
circuit.turns_chart(turns_json=turns_json)
)
st.markdown('In order to change each turn microsectors modify the `turns.json` file in the run folder.')
with harshness_panel:
if lapA_selector == '<select>':
throttle_harshness_chart = RUN_OBJECTS_DICT[run_selector].throttle_harshness_chart(scheme="tableau20")
steering_harshness_chart = RUN_OBJECTS_DICT[run_selector].steering_harshness_chart(scheme="tableau20")
else:
lap_numbers = [lapA_selector, lapB_selector] if lapB_selector != '<select>' else [lapA_selector]
throttle_harshness_chart = RUN_OBJECTS_DICT[run_selector].throttle_harshness_chart(laps=lap_numbers)
steering_harshness_chart = RUN_OBJECTS_DICT[run_selector].steering_harshness_chart(laps=lap_numbers)
st.altair_chart(alt.vconcat(throttle_harshness_chart.properties(height=200, width=220), steering_harshness_chart.properties(height=200, width=220)), use_container_width=True)
with drivers_tab:
if lapA_selector != '<select>':
st.warning('Drivers\' Run overview is not available when laps are selected.')
else:
radars_panel, harshness_panel = st.columns([2,1])
if turns_json is None:
st.error('No turns data available, please build the turns data for this run first.')
else:
with radars_panel:
mean_v_chart, out_v_chart, braking_point_chart = RUN_OBJECTS_DICT[run_selector].braking_charts(turns_json, drivers=True)
columns = st.columns(2)
with columns[0]:
st.altair_chart(mean_v_chart)
with columns[1]:
st.altair_chart(out_v_chart)
st.altair_chart(braking_point_chart)
with st.expander('Circuit Turns', expanded=False):
if turns_json is None:
st.write('No turns data available, please build the turns data for this run first.')
else:
st.write('The following chart shows the circuit turns. These turns have been manually defined with microsectors, hovering the mouse over the chart you can see the turn number and the microsector number.')
circuit = CircuitChart(seed=int(run_selector.split(':')[1]), random_orientation=False)
st.altair_chart(
circuit.turns_chart(turns_json=turns_json)
)
st.markdown('In order to change each turn microsectors modify the `turns.json` file in the run folder.')
with harshness_panel:
throttle_harshness_chart = RUN_OBJECTS_DICT[run_selector].throttle_harshness_chart(drivers=True)
steering_harshness_chart = RUN_OBJECTS_DICT[run_selector].steering_harshness_chart(drivers=True)
st.altair_chart(throttle_harshness_chart.properties(height=300), use_container_width=True)
st.altair_chart(steering_harshness_chart.properties(height=300), use_container_width=True)
# ---------- LAP PANEL ----------
if lapA_selector != '<select>':
laps_data_frame = laps_df(RUN_OBJECTS_DICT[run_selector].laps, RUN_OBJECTS_DICT[run_selector].info, lapA_selector)
else:
laps_data_frame = laps_df(RUN_OBJECTS_DICT[run_selector].laps, RUN_OBJECTS_DICT[run_selector].info)
with lap_panel:
st.divider()
st.header('Lap overview')
circuit = CircuitChart(seed=int(run_selector.split(':')[1]), random_orientation=False)
sectors, microsectors = st.tabs(['Sectors', 'Microsectors'])
with sectors:
if lapA_selector == '<select>':
st.altair_chart(
circuit.track_chart(),
)
else:
sector = st.radio(
'Select sector',
options = ['All sectors'] + RUN_OBJECTS_DICT[run_selector].df['sector'].unique().tolist(),
index = 0,
format_func = lambda x: f"Sector {x}" if x != 'All sectors' else x,
horizontal = True
)
if sector == 'All sectors':
track, delta_comparison = st.columns(2)
with delta_comparison:
if lapB_selector != '<select>':
st.altair_chart(
RUN_OBJECTS_DICT[run_selector].laps_delta_comparison_chart(
circuit, lapA_selector, lapB_selector),
use_container_width=True
)
with track:
if lapB_selector == '<select>':
racing_line_df = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].racing_line_df(curve_name='lapA', sector=(1,30))
sectors_delta = compute_sectors_deltas(
info=RUN_OBJECTS_DICT[run_selector].info,
filename=RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].filename,
lap=lapA_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapA_selector]
)
st.altair_chart(
circuit.chart(middle_curve_df=racing_line_df, info=sectors_delta),
use_container_width=True
)
else:
sectors_comparison = compute_sectors_comparison(
info=RUN_OBJECTS_DICT[run_selector].info,
filenameA=RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].filename,
global_lapA=lapA_selector,
lapA=lapA_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapA_selector],
filenameB=RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].filename,
global_lapB=lapB_selector,
lapB=lapB_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapB_selector]
)
st.altair_chart(
circuit.colored_sectors_chart(sectors_comparison, laps=[lapA_selector, lapB_selector]),
use_container_width=True
)
else:
sector_idx = sector - 1
if lapB_selector != '<select>':
sector_racing_line, sector_gg_diagram, delta_comparison = st.columns(3)
with delta_comparison:
st.altair_chart(
RUN_OBJECTS_DICT[run_selector].laps_delta_comparison_chart(
circuit, lapA_selector, lapB_selector, sector=sector),
use_container_width=True
)
else:
sector_racing_line, sector_gg_diagram = st.columns(2)
with sector_racing_line:
if lapA_selector == '<select>':
st.altair_chart(
circuit.chart(sector=sector_idx),
use_container_width=True
)
elif lapB_selector == '<select>':
racing_line_df = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].racing_line_df(curve_name='lapA', sector=sector)
sectors_delta = compute_sectors_deltas(
info=RUN_OBJECTS_DICT[run_selector].info,
filename=RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].filename,
lap=lapA_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapA_selector]
)
st.altair_chart(
circuit.chart(middle_curve_df=racing_line_df, sector=sector_idx, info=[sectors_delta[sector_idx]]),
use_container_width=True
)
else:
racing_line_df = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].racing_line_df(curve_name='lapA', sector=sector)
racing_line_df = pd.concat([racing_line_df, RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].racing_line_df(curve_name='lapB', sector=sector)])
st.altair_chart(
circuit.chart(middle_curve_df=racing_line_df, sector=sector_idx),
use_container_width=True
)
with sector_gg_diagram:
if lapA_selector != '<select>':
gg_diagram = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].gg_diagram(sector=sector)
if lapB_selector != '<select>':
gg_diagram += RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].gg_diagram(sector=sector)
st.altair_chart(gg_diagram, use_container_width=True)
with microsectors:
if lapA_selector == '<select>':
st.altair_chart(
circuit.track_chart(microsectors=True),
)
else:
microsector = st.select_slider(
'Select microsector',
options=RUN_OBJECTS_DICT[run_selector].df['microsector'].unique().tolist(),
value=(1, 30),
format_func = lambda x: f"Microsector {x}",
)
if microsector == (1, 30):
microsector = 'All microsectors'
if microsector == 'All microsectors':
track, delta_comparison = st.columns(2)
with delta_comparison:
if lapB_selector != '<select>':
st.altair_chart(
RUN_OBJECTS_DICT[run_selector].laps_delta_comparison_chart(
circuit, lapA_selector, lapB_selector, sector=tuple()),
use_container_width=True
)
with track:
if lapB_selector == '<select>':
racing_line_df = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].racing_line_df(curve_name='lapA', sector=(1,30))
microsectors_delta = compute_sectors_deltas(
info=RUN_OBJECTS_DICT[run_selector].info,
filename=RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].filename,
lap=lapA_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapA_selector],
microsectors=True
)
st.altair_chart(
circuit.chart(middle_curve_df=racing_line_df, info=microsectors_delta),
use_container_width=True
)
else:
microsectors_comparison = compute_sectors_comparison(
info=RUN_OBJECTS_DICT[run_selector].info,
filenameA=RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].filename,
global_lapA=lapA_selector,
lapA=lapA_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapA_selector],
filenameB=RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].filename,
global_lapB=lapB_selector,
lapB=lapB_selector - RUN_OBJECTS_DICT[run_selector].lap_map[lapB_selector],
microsectors=True
)
st.altair_chart(
circuit.colored_sectors_chart(microsectors_comparison, microsectors=True, laps=[lapA_selector, lapB_selector]),
use_container_width=True
)
else:
microsector_idx = (microsector[0] - 1, microsector[1] - 1)
if lapB_selector != '<select>':
microsector_racing_line, microsector_gg_diagram, delta_comparison = st.columns(3)
with delta_comparison:
st.altair_chart(
RUN_OBJECTS_DICT[run_selector].laps_delta_comparison_chart(
circuit, lapA_selector, lapB_selector, sector=microsector),
use_container_width=True
)
else:
microsector_racing_line, microsector_gg_diagram = st.columns(2)
with microsector_racing_line:
if lapA_selector == '<select>':
st.altair_chart(
circuit.chart(sector=microsector_idx),
use_container_width=True
)
else:
racing_line_df = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].racing_line_df(curve_name='lapA', sector=microsector)
if lapB_selector != '<select>':
racing_line_df = pd.concat([racing_line_df, RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].racing_line_df(curve_name='lapB', sector=microsector)])
st.altair_chart(
circuit.chart(middle_curve_df=racing_line_df, sector=microsector_idx),
use_container_width=True
)
with microsector_gg_diagram:
if lapA_selector != '<select>':
gg_diagram = RUN_OBJECTS_DICT[run_selector].laps[lapA_selector].gg_diagram(sector=microsector)
if lapB_selector != '<select>':
gg_diagram += RUN_OBJECTS_DICT[run_selector].laps[lapB_selector].gg_diagram(sector=microsector)
st.altair_chart(gg_diagram, use_container_width=True)
# st.dataframe(RUN_OBJECTS_DICT[run_selector].df)
# st.dataframe(RUN_OBJECTS_DICT[run_selector].describe())