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import pandas as pd | |
import numpy as np | |
import plotly.express as px | |
from plotly.graph_objs import Figure | |
from src.leaderboard.filter_models import FLAGGED_MODELS | |
from src.display.utils import human_baseline_row as HUMAN_BASELINE, AutoEvalColumn, Tasks, Task, BENCHMARK_COLS | |
from src.leaderboard.read_evals import EvalResult | |
def create_scores_df(raw_data: list[EvalResult]) -> pd.DataFrame: | |
""" | |
Generates a DataFrame containing the maximum scores until each date. | |
:param results_df: A DataFrame containing result information including metric scores and dates. | |
:return: A new DataFrame containing the maximum scores until each date for every metric. | |
""" | |
# Step 1: Ensure 'date' is in datetime format and sort the DataFrame by it | |
#create dataframe with EvalResult dataclass columns, even if raw_data is empty | |
results_df = pd.DataFrame(raw_data, columns=EvalResult.__dataclass_fields__.keys()) | |
#results_df["date"] = pd.to_datetime(results_df["date"], format="mixed", utc=True) | |
results_df.sort_values(by="date", inplace=True) | |
# Step 2: Initialize the scores dictionary | |
scores = {k: [] for k in BENCHMARK_COLS + [AutoEvalColumn.average.name]} | |
# Step 3: Iterate over the rows of the DataFrame and update the scores dictionary | |
for task in [t.value for t in Tasks] + [Task("Average", "avg", AutoEvalColumn.average.name)]: | |
current_max = 0 | |
last_date = "" | |
column = task.col_name | |
for _, row in results_df.iterrows(): | |
current_model = row["full_model"] | |
if current_model in FLAGGED_MODELS: | |
continue | |
current_date = row["date"] | |
if task.benchmark == "Average": | |
current_score = np.mean(list(row["results"].values())) | |
else: | |
current_score = row["results"][task.benchmark] | |
if current_score > current_max: | |
if current_date == last_date and len(scores[column]) > 0: | |
scores[column][-1] = {"model": current_model, "date": current_date, "score": current_score} | |
else: | |
scores[column].append({"model": current_model, "date": current_date, "score": current_score}) | |
current_max = current_score | |
last_date = current_date | |
# Step 4: Return all dictionaries as DataFrames | |
return {k: pd.DataFrame(v, columns=["model", "date", "score"]) for k, v in scores.items()} | |
def create_plot_df(scores_df: dict[str: pd.DataFrame]) -> pd.DataFrame: | |
""" | |
Transforms the scores DataFrame into a new format suitable for plotting. | |
:param scores_df: A DataFrame containing metric scores and dates. | |
:return: A new DataFrame reshaped for plotting purposes. | |
""" | |
# Initialize the list to store DataFrames | |
dfs = [] | |
# Iterate over the cols and create a new DataFrame for each column | |
for col in BENCHMARK_COLS + [AutoEvalColumn.average.name]: | |
d = scores_df[col].reset_index(drop=True) | |
d["task"] = col | |
dfs.append(d) | |
# Concatenate all the created DataFrames | |
concat_df = pd.concat(dfs, ignore_index=True) | |
# Sort values by 'date' | |
concat_df.sort_values(by="date", inplace=True) | |
concat_df.reset_index(drop=True, inplace=True) | |
return concat_df | |
def create_metric_plot_obj( | |
df: pd.DataFrame, metrics: list[str], title: str | |
) -> Figure: | |
""" | |
Create a Plotly figure object with lines representing different metrics | |
and horizontal dotted lines representing human baselines. | |
:param df: The DataFrame containing the metric values, names, and dates. | |
:param metrics: A list of strings representing the names of the metrics | |
to be included in the plot. | |
:param title: A string representing the title of the plot. | |
:return: A Plotly figure object with lines representing metrics and | |
horizontal dotted lines representing human baselines. | |
""" | |
# Filter the DataFrame based on the specified metrics | |
df = df[df["task"].isin(metrics)] | |
# Filter the human baselines based on the specified metrics | |
filtered_human_baselines = {k: v for k, v in HUMAN_BASELINE.items() if k in metrics if v is not None} | |
# Create a line figure using plotly express with specified markers and custom data | |
fig = px.line( | |
df, | |
x="date", | |
y="score", | |
color="task", | |
markers=True, | |
custom_data=["task", "score", "model"], | |
title=title, | |
) | |
# Update hovertemplate for better hover interaction experience | |
fig.update_traces( | |
hovertemplate="<br>".join( | |
[ | |
"Model Name: %{customdata[2]}", | |
"Metric Name: %{customdata[0]}", | |
"Date: %{x}", | |
"Metric Value: %{y}", | |
] | |
) | |
) | |
# Update the range of the y-axis | |
fig.update_layout(yaxis_range=[0, 100]) | |
# Create a dictionary to hold the color mapping for each metric | |
metric_color_mapping = {} | |
# Map each metric name to its color in the figure | |
for trace in fig.data: | |
metric_color_mapping[trace.name] = trace.line.color | |
# Iterate over filtered human baselines and add horizontal lines to the figure | |
for metric, value in filtered_human_baselines.items(): | |
color = metric_color_mapping.get(metric, "blue") # Retrieve color from mapping; default to blue if not found | |
location = "top left" if metric == "HellaSwag" else "bottom left" # Set annotation position | |
# Add horizontal line with matched color and positioned annotation | |
fig.add_hline( | |
y=value, | |
line_dash="dot", | |
annotation_text=f"{metric} human baseline", | |
annotation_position=location, | |
annotation_font_size=10, | |
annotation_font_color=color, | |
line_color=color, | |
) | |
return fig | |
def create_lat_score_mem_plot_obj(leaderboard_df): | |
copy_df = leaderboard_df.copy() | |
copy_df = copy_df[~(copy_df[AutoEvalColumn.dummy.name].isin(["baseline", "human_baseline"]))] | |
# plot | |
SCORE_MEMORY_LATENCY_DATA = [ | |
AutoEvalColumn.dummy.name, | |
AutoEvalColumn.average.name, | |
AutoEvalColumn.params.name, | |
AutoEvalColumn.architecture.name, | |
"Evaluation Time (min)" | |
] | |
copy_df["LLM Average Score"] = copy_df[AutoEvalColumn.average.name] | |
copy_df["Evaluation Time (min)"] = copy_df[AutoEvalColumn.eval_time.name] / 60 | |
#copy_df["size"] = copy_df[AutoEvalColumn.params.name] | |
copy_df["size"] = copy_df[AutoEvalColumn.params.name].apply(lambda x: 0.5 if 0 <= x < 0.8 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 0.8 if 0.8 <= x < 2 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 1.5 if 2 <= x < 5 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 2.0 if 5 <= x < 10 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 3.0 if 10 <= x < 20 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 4.5 if 20 <= x < 40 else x) | |
copy_df["size"] = copy_df["size"].apply(lambda x: 7.0 if x > 40 else x) | |
fig = px.scatter( | |
copy_df, | |
x="Evaluation Time (min)", | |
y="LLM Average Score", | |
size="size", | |
color=AutoEvalColumn.architecture.name, | |
custom_data=SCORE_MEMORY_LATENCY_DATA, | |
color_discrete_sequence=px.colors.qualitative.Light24, | |
log_x=True | |
) | |
fig.update_traces( | |
hovertemplate="<br>".join( | |
[f"<b>{column}:</b> %{{customdata[{i}]}}" for i, column in enumerate(SCORE_MEMORY_LATENCY_DATA)] | |
) | |
) | |
fig.update_layout( | |
title={ | |
"text": "Eval Time vs. Score vs. #Params", | |
"y": 0.95, | |
"x": 0.5, | |
"xanchor": "center", | |
"yanchor": "top", | |
}, | |
xaxis_title="Time To Evaluate (min)", | |
yaxis_title="LLM Average Score", | |
legend_title="LLM Architecture", | |
width=1200, | |
height=600, | |
) | |
return fig | |
# Example Usage: | |
# human_baselines dictionary is defined. | |
# chart = create_metric_plot_obj(scores_df, ["ARC", "HellaSwag", "MMLU", "TruthfulQA"], human_baselines, "Graph Title") | |