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from pathlib import Path
import numpy as np
import pandas as pd
import plotly.colors as pcolors
import plotly.graph_objects as go
import streamlit as st
from ase.data import chemical_symbols
from plotly.subplots import make_subplots
from scipy.interpolate import CubicSpline
st.markdown("# Homonuclear diatomics")
st.markdown("### Methods")
container = st.container(border=True)
methods = container.multiselect("MLIPs", ["MACE-MP", "Equiformer", "CHGNet", "MACE-OFF", "eSCN"], ["MACE-MP", "Equiformer", "CHGNet", "eSCN"])
methods += container.multiselect("DFT Methods", ["GPAW"], [])
st.markdown("### Settings")
vis = st.container(border=True)
energy_plot = vis.checkbox("Show energy curves", value=True)
force_plot = vis.checkbox("Show force curves", value=True)
ncols = vis.select_slider("Number of columns", options=[1, 2, 3, 4], value=3)
# Get all attributes from pcolors.qualitative
all_attributes = dir(pcolors.qualitative)
color_palettes = {attr: getattr(pcolors.qualitative, attr) for attr in all_attributes if isinstance(getattr(pcolors.qualitative, attr), list)}
color_palettes.pop("__all__", None)
palette_names = list(color_palettes.keys())
palette_colors = list(color_palettes.values())
palette_name = vis.selectbox(
"Color sequence",
options=palette_names, index=22
)
color_sequence = color_palettes[palette_name] # type: ignore
DATA_DIR = Path("mlip_arena/tasks/diatomics")
dfs = [pd.read_json(DATA_DIR / method.lower() / "homonuclear-diatomics.json") for method in methods]
df = pd.concat(dfs, ignore_index=True)
df.drop_duplicates(inplace=True, subset=["name", "method"])
method_color_mapping = {method: color_sequence[i % len(color_sequence)] for i, method in enumerate(df["method"].unique())}
for i, symbol in enumerate(chemical_symbols[1:]):
if i % ncols == 0:
cols = st.columns(ncols)
rows = df[df["name"] == symbol + symbol]
if rows.empty:
continue
fig = make_subplots(specs=[[{"secondary_y": True}]])
elo, flo = float("inf"), float("inf")
for j, method in enumerate(rows["method"].unique()):
row = rows[rows["method"] == method].iloc[0]
rs = np.array(row["R"])
es = np.array(row["E"])
fs = np.array(row["F"])
rs = np.array(rs)
ind = np.argsort(rs)
es = np.array(es)
fs = np.array(fs)
rs = rs[ind]
es = es[ind]
if "GPAW" not in method:
es = es - es[-1]
else:
pass
if "GPAW" not in method:
fs = fs[ind]
if "GPAW" in method:
xs = np.linspace(rs.min()*0.99, rs.max()*1.01, int(5e2))
else:
xs = rs
if energy_plot:
if "GPAW" in method:
cs = CubicSpline(rs, es)
ys = cs(xs)
else:
ys = es
elo = min(elo, max(ys.min()*1.2, -15), -1)
fig.add_trace(
go.Scatter(
x=xs, y=ys,
mode="lines",
line=dict(
color=method_color_mapping[method],
width=2,
),
name=method,
),
secondary_y=False,
)
if force_plot and "GPAW" not in method:
ys = fs
flo = min(flo, max(ys.min()*1.2, -50))
fig.add_trace(
go.Scatter(
x=xs, y=ys,
mode="lines",
line=dict(
color=method_color_mapping[method],
width=1,
dash="dot",
),
name=method,
showlegend=not energy_plot,
),
secondary_y=True,
)
name = f"{symbol}-{symbol}"
fig.update_layout(
showlegend=True,
title_text=f"{name}",
title_x=0.5,
)
# Set x-axis title
fig.update_xaxes(title_text="Bond length (Å)")
# Set y-axes titles
if energy_plot:
fig.update_layout(
yaxis=dict(
title=dict(text="Energy [eV]"),
side="left",
range=[elo, 2*(abs(elo))],
)
)
if force_plot:
fig.update_layout(
yaxis2=dict(
title=dict(text="Force [eV/Å]"),
side="right",
range=[flo, 1.5*abs(flo)],
overlaying="y",
tickmode="sync",
),
)
cols[i % ncols].plotly_chart(fig, use_container_width=True, height=250)
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