Override for Codex users who want Gemini, not a second Codex agent, to act as the reviewer. Install this package after
skills/skills-codex/*.
Paper Figure: Publication-Quality Plots from Experiment Data
Generate all figures and tables for a paper based on: $ARGUMENTS
Scope: What This Skill Can and Cannot Do
| Category | Can auto-generate? | Examples |
|---|---|---|
| Data-driven plots | ✅ Yes | Line plots (training curves), bar charts (method comparison), scatter plots, heatmaps, box/violin plots |
| Comparison tables | ✅ Yes | LaTeX tables comparing prior bounds, method features, ablation results |
| Multi-panel figures | ✅ Yes | Subfigure grids combining multiple plots (e.g., 3×3 dataset × method) |
| Architecture/pipeline diagrams | ❌ No — manual | Model architecture, data flow diagrams, system overviews. At best can generate a rough TikZ skeleton, but expect to draw these yourself using tools like draw.io, Figma, or TikZ |
| Generated image grids | ❌ No — manual | Grids of generated samples (e.g., GAN/diffusion outputs). These come from running your model, not from this skill |
| Photographs / screenshots | ❌ No — manual | Real-world images, UI screenshots, qualitative examples |
In practice: For a typical ML paper, this skill handles ~60% of figures (all data plots + tables). The remaining ~40% (hero figure, architecture diagram, qualitative results) need to be created manually and placed in figures/ before running /paper-write. The skill will detect these as "existing figures" and preserve them.
Constants
- STYLE =
publication— Visual style preset. Options:publication(default, clean for print),poster(larger fonts),slide(bold colors) - DPI = 300 — Output resolution
- FORMAT =
pdf— Output format. Options:pdf(vector, best for LaTeX),png(raster fallback) - COLOR_PALETTE =
tab10— Default matplotlib color cycle. Options:tab10,Set2,colorblind(deuteranopia-safe) - FONT_SIZE = 10 — Base font size (matches typical conference body text)
- FIG_DIR =
figures/— Output directory for generated figures - REVIEWER_MODEL =
gemini-review— Gemini reviewer invoked through the localgemini-reviewMCP bridge. SetGEMINI_REVIEW_MODELif you need a specific Gemini model override.
Inputs
- PAPER_PLAN.md — figure plan table (from
/paper-plan) - Experiment data — JSON files, CSV files, or screen logs in
figures/or project root - Existing figures — any manually created figures to preserve
If no PAPER_PLAN.md exists, scan for data files and ask the user which figures to generate.
Workflow
Step 1: Read Figure Plan
Parse the Figure Plan table from PAPER_PLAN.md:
| ID | Type | Description | Data Source | Priority |
|----|------|-------------|-------------|----------|
| Fig 1 | Architecture | ... | manual | HIGH |
| Fig 2 | Line plot | ... | figures/exp.json | HIGH |
Identify:
- Which figures can be auto-generated from data
- Which need manual creation (architecture diagrams, etc.)
- Which are comparison tables (generate as LaTeX)
Step 2: Set Up Plotting Environment
Create a shared style configuration script:
# paper_plot_style.py — shared across all figure scripts
import matplotlib.pyplot as plt
import matplotlib
matplotlib.rcParams.update({
'font.size': FONT_SIZE,
'font.family': 'serif',
'font.serif': ['Times New Roman', 'Times', 'DejaVu Serif'],
'axes.labelsize': FONT_SIZE,
'axes.titlesize': FONT_SIZE + 1,
'xtick.labelsize': FONT_SIZE - 1,
'ytick.labelsize': FONT_SIZE - 1,
'legend.fontsize': FONT_SIZE - 1,
'figure.dpi': DPI,
'savefig.dpi': DPI,
'savefig.bbox': 'tight',
'savefig.pad_inches': 0.05,
'axes.grid': False,
'axes.spines.top': False,
'axes.spines.right': False,
'text.usetex': False, # set True if LaTeX is available
'mathtext.fontset': 'stix',
})
# Color palette
COLORS = plt.cm.tab10.colors # or Set2, or colorblind-safe
def save_fig(fig, name, fmt=FORMAT):
"""Save figure to FIG_DIR with consistent naming."""
fig.savefig(f'{FIG_DIR}/{name}.{fmt}')
print(f'Saved: {FIG_DIR}/{name}.{fmt}')
Step 3: Auto-Select Figure Type
Use this decision tree for data-driven figures (inspired by Imbad0202/academic-research-skills):
| Data Pattern | Recommended Type | Size |
|---|---|---|
| X=time/steps, Y=metric | Line plot | 0.48\textwidth |
| Methods × 1 metric | Bar chart | 0.48\textwidth |
| Methods × multiple metrics | Grouped bar / radar | 0.95\textwidth |
| Two continuous variables | Scatter plot | 0.48\textwidth |
| Matrix / grid values | Heatmap | 0.48\textwidth |
| Distribution comparison | Box/violin plot | 0.48\textwidth |
| Multi-dataset results | Multi-panel (subfigure) | 0.95\textwidth |
| Prior work comparison | LaTeX table | — |
Step 4: Generate Each Figure
For each figure in the plan, create a standalone Python script:
Line plots (training curves, scaling):
# gen_fig2_training_curves.py
from paper_plot_style import *
import json
with open('figures/exp_results.json') as f:
data = json.load(f)
fig, ax = plt.subplots(1, 1, figsize=(5, 3.5))
ax.plot(data['steps'], data['fac_loss'], label='Factorized', color=COLORS[0])
ax.plot(data['steps'], data['crf_loss'], label='CRF-LR', color=COLORS[1])
ax.set_xlabel('Training Steps')
ax.set_ylabel('Cross-Entropy Loss')
ax.legend(frameon=False)
save_fig(fig, 'fig2_training_curves')
Bar charts (comparison, ablation):
fig, ax = plt.subplots(1, 1, figsize=(5, 3))
methods = ['Baseline', 'Method A', 'Method B', 'Ours']
values = [82.3, 85.1, 86.7, 89.2]
bars = ax.bar(methods, values, color=[COLORS[i] for i in range(len(methods))])
ax.set_ylabel('Accuracy (%)')
# Add value labels on bars
for bar, val in zip(bars, values):
ax.text(bar.get_x() + bar.get_width()/2, bar.get_height() + 0.3,
f'{val:.1f}', ha='center', va='bottom', fontsize=FONT_SIZE-1)
save_fig(fig, 'fig3_comparison')
Comparison tables (LaTeX, for theory papers):
\begin{table}[t]
\centering
\caption{Comparison of estimation error bounds. $n$: sample size, $D$: ambient dim, $d$: latent dim, $K$: subspaces, $n_k$: modes.}
\label{tab:bounds}
\begin{tabular}{lccc}
\toprule
Method & Rate & Depends on $D$? & Multi-modal? \\
\midrule
\citet{MinimaxOkoAS23} & $n^{-s'/D}$ & Yes (curse) & No \\
\citet{ScoreMatchingdistributionrecovery} & $n^{-2/d}$ & No & No \\
\textbf{Ours} & $\sqrt{\sum n_k d_k / n}$ & No & Yes \\
\bottomrule
\end{tabular}
\end{table}
Architecture/pipeline diagrams (MANUAL — outside this skill's scope):
- These require manual creation using draw.io, Figma, Keynote, or TikZ
- This skill can generate a rough TikZ skeleton as a starting point, but do not expect publication-quality results
- If the figure already exists in
figures/, preserve it and generate only the LaTeX\includegraphicssnippet - Flag as
[MANUAL]in the figure plan andlatex_includes.tex
Step 5: Run All Scripts
# Run all figure generation scripts
for script in gen_fig*.py; do
python "$script"
done
Verify all output files exist and are non-empty.
Step 6: Generate LaTeX Include Snippets
For each figure, output the LaTeX code to include it:
% === Fig 2: Training Curves ===
\begin{figure}[t]
\centering
\includegraphics[width=0.48\textwidth]{figures/fig2_training_curves.pdf}
\caption{Training curves comparing factorized and CRF-LR denoising.}
\label{fig:training_curves}
\end{figure}
Save all snippets to figures/latex_includes.tex for easy copy-paste into the paper.
Step 7: Figure Quality Review with REVIEWER_MODEL
Send figure descriptions and captions to Gemini for review:
mcp__gemini-review__review_start:
prompt: |
Review these figure/table plans for a [VENUE] submission.