matplotlib▌
davila7/claude-code-templates · updated Apr 8, 2026
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Foundational Python plotting library for creating static, animated, and interactive visualizations across scientific, statistical, and publication workflows.
- ›Supports two interfaces: pyplot (MATLAB-style, quick exploration) and object-oriented (recommended for production code with explicit Figure/Axes control)
- ›Covers 10+ plot types including line, scatter, bar, histogram, heatmap, contour, box, violin, and 3D plots with customizable colors, styles, labels, and legends
- ›Exports to PNG,
Matplotlib
Overview
Matplotlib is Python's foundational visualization library for creating static, animated, and interactive plots. This skill provides guidance on using matplotlib effectively, covering both the pyplot interface (MATLAB-style) and the object-oriented API (Figure/Axes), along with best practices for creating publication-quality visualizations.
When to Use This Skill
This skill should be used when:
- Creating any type of plot or chart (line, scatter, bar, histogram, heatmap, contour, etc.)
- Generating scientific or statistical visualizations
- Customizing plot appearance (colors, styles, labels, legends)
- Creating multi-panel figures with subplots
- Exporting visualizations to various formats (PNG, PDF, SVG, etc.)
- Building interactive plots or animations
- Working with 3D visualizations
- Integrating plots into Jupyter notebooks or GUI applications
Core Concepts
The Matplotlib Hierarchy
Matplotlib uses a hierarchical structure of objects:
- Figure - The top-level container for all plot elements
- Axes - The actual plotting area where data is displayed (one Figure can contain multiple Axes)
- Artist - Everything visible on the figure (lines, text, ticks, etc.)
- Axis - The number line objects (x-axis, y-axis) that handle ticks and labels
Two Interfaces
1. pyplot Interface (Implicit, MATLAB-style)
import matplotlib.pyplot as plt
plt.plot([1, 2, 3, 4])
plt.ylabel('some numbers')
plt.show()
- Convenient for quick, simple plots
- Maintains state automatically
- Good for interactive work and simple scripts
2. Object-Oriented Interface (Explicit)
import matplotlib.pyplot as plt
fig, ax = plt.subplots()
ax.plot([1, 2, 3, 4])
ax.set_ylabel('some numbers')
plt.show()
- Recommended for most use cases
- More explicit control over figure and axes
- Better for complex figures with multiple subplots
- Easier to maintain and debug
Common Workflows
1. Basic Plot Creation
Single plot workflow:
import matplotlib.pyplot as plt
import numpy as np
# Create figure and axes (OO interface - RECOMMENDED)
fig, ax = plt.subplots(figsize=(10, 6))
# Generate and plot data
x = np.linspace(0, 2*np.pi, 100)
ax.plot(x, np.sin(x), label='sin(x)')
ax.plot(x, np.cos(x), label='cos(x)')
# Customize
ax.set_xlabel('x')
ax.set_ylabel('y')
ax.set_title('Trigonometric Functions')
ax.legend()
ax.grid(True, alpha=0.3)
# Save and/or display
plt.savefig('plot.png', dpi=300, bbox_inches='tight')
plt.show()
2. Multiple Subplots
Creating subplot layouts:
# Method 1: Regular grid
fig, axes = plt.subplots(2, 2, figsize=(12, 10))
axes[0, 0].plot(x, y1)
axes[0, 1].scatter(x, y2)
axes[1, 0].bar(categories, values)
axes[1, 1].hist(data, bins=30)
# Method 2: Mosaic layout (more flexible)
fig, axes = plt.subplot_mosaic([['left', 'right_top'],
['left', 'right_bottom']],
figsize=(10, 8))
axes['left'].plot(x, y)
axes['right_top'].scatter(x, y)
axes['right_bottom'].hist(data)
# Method 3: GridSpec (maximum control)
from matplotlib.gridspec import GridSpec
fig = plt.figure(figsize=(12, 8))
gs = GridSpec(3, 3, figure=fig)
ax1 = fig.add_subplot(gs[0, :]) # Top row, all columns
ax2 = fig.add_subplot(gs[1:, 0]) # Bottom two rows, first column
ax3 = fig.add_subplot(gs[1:, 1:]) # Bottom two rows, last two columns
3. Plot Types and Use Cases
Line plots - Time series, continuous data, trends
ax.plot(x, y, linewidth=2, linestyle='--', marker='o', color='blue')
Scatter plots - Relationships between variables, correlations
ax.scatter(x, y, s=sizes, c=colors, alpha=0.6, cmap='viridis')
Bar charts - Categorical comparisons
ax.bar(categories, values, color='steelblue', edgecolor='black')
# For horizontal bars:
ax.barh(categories, values)
Histograms - Distributions
ax.hist(data, bins=30, edgecolor='black', alpha=0.7)
Heatmaps - Matrix data, correlations
im = ax.imshow(matrix, cmap='coolwarm', aspect='auto')
plt.colorbar(im, ax=ax)
Contour plots - 3D data on 2D plane
contour = ax.contour(X, Y, Z, levels=10)
ax.clabel(contour, inline=True, fontsize=8)
Box plots - Statistical distributions
ax.boxplot([data1, data2, data3], labels=['A', 'B', 'C'])
Violin plots - Distribution densities
ax.violinplot([data1, data2, data3], positions=[1, 2, 3])
For comprehensive plot type examples and variations, refer to references/plot_types.md.
4. Styling and Customization
Color specification methods:
- Named colors:
'red','blue','steelblue' - Hex codes:
'#FF5733' - RGB tuples:
(0.1, 0.2, 0.3) - Colormaps:
cmap='viridis',cmap='plasma',cmap='coolwarm'
Using style sheets:
How to use matplotlib on Cursor
AI-first code editor with Composer
Prerequisites
Before installing skills in Cursor, ensure your development environment meets these requirements:
- ›Cursor installed and configured on your development machine
- ›Node.js version 16.0+ with npm package manager (verify with
node --version) - ›Active project directory or workspace where you want to add matplotlib
Execute installation command
Execute the skills CLI command in your project's root directory to begin installation:
The skills CLI fetches matplotlib from GitHub repository davila7/claude-code-templates and configures it for Cursor.
Select Cursor when prompted
The CLI will show a list of available agents. Use arrow keys to navigate and space to select Cursor:
Verify installation
Confirm successful installation by checking the skill directory location:
Reload or restart Cursor to activate matplotlib. Access the skill through slash commands (e.g., /matplotlib) or your agent's skill management interface.
Security & Verification Notice
We perform automated surface-level scans (Gen AI Scanner, Socket, Snyk) during installation. These checks detect common vulnerabilities but do not guarantee complete security. Always review skill source code and verify the publisher's reputation before production use.
Skills execute code in your development environment. Always verify the publisher's identity, review recent commits, and test in isolated environments before production deployment.
List & Monetize Your Skill
Submit your Claude Code skill and start earning
Use Cases▌
User Story & Requirements Generation
Create detailed user stories, acceptance criteria, and feature specs
Example
Generate user stories for 'password reset feature' with acceptance criteria, edge cases, and test scenarios
Reduce spec writing time by 50%, ensure comprehensive coverage
Competitive Analysis
Research competitors, compare features, identify gaps
Example
Analyze 5 competitor products, create feature comparison matrix, suggest differentiation opportunities
Complete competitive research in 2 hours instead of 2 days
Roadmap Prioritization
Evaluate features using frameworks (RICE, ICE, Kano) and create prioritized backlogs
Example
Score 20 feature ideas using RICE framework, generate prioritized roadmap with rationale
Make data-driven prioritization decisions faster
Stakeholder Communication
Draft PRDs, status updates, and stakeholder presentations
Example
Create executive summary of Q3 roadmap, monthly progress report, feature launch announcement
Save 3-5 hours/week on communication overhead
Implementation Guide▌
Prerequisites
- ›Claude Desktop or compatible AI client
- ›Access to product documentation and roadmap tools (Jira, Notion, etc.)
- ›Understanding of product management frameworks (RICE, Jobs-to-be-Done, etc.)
- ›Stakeholder contact information and communication channels
Time Estimate
30-60 minutes to see productivity improvements
Installation Steps
- 1.Install product management skill
- 2.Start with user story generation for known feature
- 3.Progress to competitive analysis: research 2-3 competitors
- 4.Use for roadmap prioritization: apply RICE/ICE scoring
- 5.Draft stakeholder communications and refine based on feedback
- 6.Build template library for recurring PM tasks
- 7.Share effective prompts with product team
Common Pitfalls
- ⚠Not validating competitive research—verify facts before sharing
- ⚠Accepting user stories without involving engineering team
- ⚠Over-relying on frameworks without qualitative judgment
- ⚠Not customizing outputs to company culture and communication style
- ⚠Skipping stakeholder validation of generated requirements
Best Practices▌
✓ Do
- +Validate research and competitive analysis with real data
- +Collaborate with engineering when generating technical requirements
- +Customize frameworks and templates to your company context
- +Use skill for first drafts, refine with stakeholder input
- +Document successful prompt patterns for PM tasks
- +Combine AI efficiency with human judgment and intuition
✗ Don't
- −Don't publish competitive analysis without fact-checking
- −Don't finalize user stories without engineering review
- −Don't make prioritization decisions solely on AI scoring
- −Don't skip customer validation of generated requirements
- −Don't ignore company-specific context and culture
💡 Pro Tips
- ★Provide context: company goals, constraints, customer feedback
- ★Ask for alternatives: 'Show 3 ways to prioritize this roadmap'
- ★Request stakeholder-specific formatting: 'Executive summary vs. engineering spec'
- ★Use skill for 70% generation + 30% customization to company needs
When to Use This▌
✓ Use When
Use for user story writing, competitive research, roadmap prioritization, stakeholder communication, and PRD drafting. Best for reducing repetitive documentation and research work.
✗ Avoid When
Avoid for strategic product vision (requires deep customer empathy), pricing decisions (needs market and financial expertise), or when face-to-face customer discovery is more valuable than speed.
Learning Path▌
- 1Basic: user stories, feature specs, status updates
- 2Intermediate: competitive analysis, prioritization frameworks, PRDs
- 3Advanced: product strategy, go-to-market planning, OKR setting
- 4Expert: product vision, market positioning, business model innovation
Discussion
Product Hunt–style comments (not star reviews)- No comments yet — start the thread.
Ratings
4.7★★★★★59 reviews- ★★★★★Shikha Mishra· Dec 28, 2024
Keeps context tight: matplotlib is the kind of skill you can hand to a new teammate without a long onboarding doc.
- ★★★★★Olivia Thomas· Dec 28, 2024
Registry listing for matplotlib matched our evaluation — installs cleanly and behaves as described in the markdown.
- ★★★★★Zaid Tandon· Dec 20, 2024
I recommend matplotlib for anyone iterating fast on agent tooling; clear intent and a small, reviewable surface area.
- ★★★★★Min Harris· Dec 16, 2024
Keeps context tight: matplotlib is the kind of skill you can hand to a new teammate without a long onboarding doc.
- ★★★★★Hassan Zhang· Dec 12, 2024
Useful defaults in matplotlib — fewer surprises than typical one-off scripts, and it plays nicely with `npx skills` flows.
- ★★★★★Michael Abebe· Dec 8, 2024
matplotlib is among the better-maintained entries we tried; worth keeping pinned for repeat workflows.
- ★★★★★Olivia Jackson· Nov 27, 2024
matplotlib reduced setup friction for our internal harness; good balance of opinion and flexibility.
- ★★★★★Zaid Johnson· Nov 23, 2024
Useful defaults in matplotlib — fewer surprises than typical one-off scripts, and it plays nicely with `npx skills` flows.
- ★★★★★Yash Thakker· Nov 19, 2024
Registry listing for matplotlib matched our evaluation — installs cleanly and behaves as described in the markdown.
- ★★★★★Diya Taylor· Nov 19, 2024
Keeps context tight: matplotlib is the kind of skill you can hand to a new teammate without a long onboarding doc.
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