How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Which agent frameworks does sympy support?

sympy works with any agent framework supported by the Skills registry, including Claude Code, Cursor, GitHub Copilot, Cline, Codex, and Gemini CLI.

Is sympy free to use?

Yes. sympy is free to install and use. It is available from the open explainx.ai skill registry published by K-Dense-AI.

Where can I read ratings and reviews for sympy?

Community ratings and review text appear on this explainx.ai skill page below the description. Reviews use a 1–5 scale and may include short written feedback from signed-in members.

How do I install sympy?

Run `npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy` in your terminal. You need to have run `npx skills init` once in your project first.

Science

sympy▌

K-Dense-AI/scientific-agent-skills · updated Jun 4, 2026

MDX-style export adds YAML metadata + attribution linking explainx.ai and this canonical listing URL.

$npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy

0 commentsdiscussion

summary

### Sympy

›name: "sympy"
›description: "Use when you need exact symbolic math in Python — algebra, calculus, equation solving, symbolic linear algebra, or code generation via lambdify/LaTeX. Prefer NumPy or SciPy when floating-point approxi..."
›allowed-tools: "Read Write Edit Bash"

skill.md

name	sympy
description	Use when you need exact symbolic math in Python — algebra, calculus, equation solving, symbolic linear algebra, or code generation via lambdify/LaTeX. Prefer NumPy or SciPy when floating-point approximations are sufficient.
license	https://github.com/sympy/sympy/blob/master/LICENSE
allowed-tools	Read Write Edit Bash
compatibility	Requires Python 3.9+ and SymPy 1.14+. Optional NumPy/SciPy/Matplotlib for lambdify examples; C/Fortran compiler for autowrap/codegen.
metadata	version: "1.1" skill-author: K-Dense Inc.

SymPy - Symbolic Mathematics in Python

Overview

SymPy is a Python library for symbolic mathematics that enables exact computation using mathematical symbols rather than numerical approximations. This skill provides comprehensive guidance for performing symbolic algebra, calculus, linear algebra, equation solving, physics calculations, and code generation using SymPy.

Installation

Tested against SymPy 1.14.0 (stable; April 2025). Requires Python 3.9+.

# Install SymPy using uv
uv pip install "sympy>=1.14"

# Optional: for lambdify and plotting examples
uv pip install numpy scipy matplotlib

Check your version:

import sympy
print(sympy.__version__)

When to Use This Skill

Use this skill when:

Solving equations symbolically (algebraic, differential, systems of equations)
Performing calculus operations (derivatives, integrals, limits, series)
Manipulating and simplifying algebraic expressions
Working with matrices and linear algebra symbolically
Doing physics calculations (mechanics, quantum mechanics, vector analysis)
Number theory computations (primes, factorization, modular arithmetic)
Geometric calculations (2D/3D geometry, analytic geometry)
Converting mathematical expressions to executable code (Python, C, Fortran)
Generating LaTeX or other formatted mathematical output
Needing exact mathematical results (e.g., sqrt(2) not 1.414...)

Core Capabilities

1. Symbolic Computation Basics

Creating symbols and expressions:

from sympy import symbols, Symbol
x, y, z = symbols('x y z')
expr = x**2 + 2*x + 1

# With assumptions
x = symbols('x', real=True, positive=True)
n = symbols('n', integer=True)

Simplification and manipulation:

from sympy import simplify, expand, factor, cancel
simplify(sin(x)**2 + cos(x)**2)  # Returns 1
expand((x + 1)**3)  # x**3 + 3*x**2 + 3*x + 1
factor(x**2 - 1)    # (x - 1)*(x + 1)

For detailed basics: See references/core-capabilities.md

2. Calculus

Derivatives:

from sympy import diff
diff(x**2, x)        # 2*x
diff(x**4, x, 3)     # 24*x (third derivative)
diff(x**2*y**3, x, y)  # 6*x*y**2 (partial derivatives)

Integrals:

from sympy import integrate, oo
integrate(x**2, x)              # x**3/3 (indefinite)
integrate(x**2, (x, 0, 1))      # 1/3 (definite)
integrate(exp(-x), (x, 0, oo))  # 1 (improper)

Limits and Series:

from sympy import limit, series
limit(sin(x)/x, x, 0)  # 1
series(exp(x), x, 0, 6)  # 1 + x + x**2/2 + x**3/6 + x**4/24 + x**5/120 + O(x**6)

For detailed calculus operations: See references/core-capabilities.md

3. Equation Solving

Algebraic equations:

from sympy import solveset, solve, Eq
solveset(x**2 - 4, x)  # {-2, 2}
solve(Eq(x**2, 4), x)  # [-2, 2]

Systems of equations:

from sympy import linsolve, nonlinsolve
linsolve([x + y - 2, x - y], x, y)  # {(1, 1)} (linear)
nonlinsolve([x**2 + y - 2, x + y**2 - 3], x, y)  # (nonlinear)

Differential equations:

from sympy import Function, dsolve, Derivative
f = symbols('f', cls=Function)
dsolve(Derivative(f(x), x) - f(x), f(x))  # Eq(f(x), C1*exp(x))

For detailed solving methods: See references/core-capabilities.md

4. Matrices and Linear Algebra

Matrix creation and operations:

from sympy import Matrix, eye, zeros
M = Matrix([[1, 2], [3, 4]])
M_inv = M**-1  # Inverse
M.det()        # Determinant
M.T            # Transpose

Eigenvalues and eigenvectors:

eigenvals = M.eigenvals()  # {eigenvalue: multiplicity}
eigenvects = M.eigenvects()  # [(eigenval, mult, [eigenvectors])]
P, D = M.diagonalize()  # M = P*D*P^-1

Solving linear systems:

A = Matrix([[1, 2], [3, 4]])
b = Matrix([5, 6])
x = A.solve(b)  # Solve Ax = b

For comprehensive linear algebra: See references/matrices-linear-algebra.md

5. Physics and Mechanics

Classical mechanics:

from sympy.physics.mechanics import dynamicsymbols, LagrangesMethod
from sympy import symbols

# Define system
q = dynamicsymbols('q')
m, g, l = symbols('m g l')

# Lagrangian (T - V)
L = m*(l*q.diff())**2/2 - m*g*l*(1 - cos(q))

# Apply Lagrange's method
LM = LagrangesMethod(L, [q])

Vector analysis:

from sympy.physics.vector import ReferenceFrame, dot, cross
N = ReferenceFrame('N')
v1 = 3*N.x + 4*N.y
v2 = 1*N.x + 2*N.z
dot(v1, v2)  # Dot product
cross(v1, v2)  # Cross product

Quantum mechanics:

from sympy.physics.quantum import Ket, Bra, Operator, Commutator
A, B = Operator('A'), Operator('B')
psi = Ket('psi')
comm = Commutator(A, B).doit()

For detailed physics capabilities: See references/physics-mechanics.md

6. Advanced Mathematics

The skill includes comprehensive support for:

Geometry: 2D/3D analytic geometry, points, lines, circles, polygons, transformations
Number Theory: Primes, factorization, GCD/LCM, modular arithmetic, Diophantine equations
Combinatorics: Permutations, combinations, partitions, group theory
Logic and Sets: Boolean logic, set theory, finite and infinite sets
Statistics: Probability distributions, random variables, expectation, variance
Special Functions: Gamma, Bessel, orthogonal polynomials, hypergeometric functions
Polynomials: Polynomial algebra, roots, factorization, Groebner bases

For detailed advanced topics: See references/advanced-topics.md

7. Code Generation and Output

Convert to executable functions:

from sympy import lambdify
import numpy as np

expr = x**2 + 2*x + 1
f = lambdify(x, expr, 'numpy')  # Create NumPy function
x_vals = np.linspace(0, 10, 100)
y_vals = f(x_vals)  # Fast numerical evaluation

Generate C/Fortran code:

from sympy.utilities.codegen import codegen
[(c_name, c_code), (h_name, h_header)] = codegen(
    ('my_func', expr), 'C'
)

LaTeX output:

from sympy import latex
latex_str = latex(expr)  # Convert to LaTeX for documents

For comprehensive code generation: See references/code-generation-printing.md

Working with SymPy: Best Practices

1. Always Define Symbols First

from sympy import symbols
x, y, z = symbols('x y z')
# Now x, y, z can be used in expressions

2. Use Assumptions for Better Simplification

x = symbols('x', positive=True, real=True)
sqrt(x**2)  # Returns x (not Abs(x)) due to positive assumption

Common assumptions: real, positive, negative, integer, rational, complex, even, odd

3. Use Exact Arithmetic

from sympy import Rational, S
# Correct (exact):
expr = Rational(1, 2) * x
expr = S(1)/2 * x

# Incorrect (floating-point):
expr = 0.5 * x  # Creates approximate value

4. Numerical Evaluation When Needed

from sympy import pi, sqrt
result = sqrt(8) + pi
result.evalf()    # 5.96371554103586
result.evalf(50)  # 50 digits of precision

5. Convert to NumPy for Performance

# Slow for many evaluations:
for x_val in range(1000):
    result = expr.subs(x, x_val).evalf()

# Fast:
f = lambdify(x, expr, 'numpy')
results = f(np.arange(1000))

6. Use Appropriate Solvers

solveset: Algebraic equations (primary)
linsolve: Linear systems
nonlinsolve: Nonlinear systems
dsolve: Differential equations
solve: General purpose (legacy, but flexible)

Reference Files Structure

This skill uses modular reference files for different capabilities:

core-capabilities.md: Symbols, algebra, calculus, simplification, equation solving
- Load when: Basic symbolic computation, calculus, or solving equations
matrices-linear-algebra.md: Matrix operations, eigenvalues, linear systems
- Load when: Working with matrices or linear algebra problems
physics-mechanics.md: Classical mechanics, quantum mechanics, vectors, units
- Load when: Physics calculations or mechanics problems
advanced-topics.md: Geometry, number theory, combinatorics, logic, statistics
- Load when: Advanced mathematical topics beyond basic algebra and calculus
code-generation-printing.md: Lambdify, codegen, LaTeX output, printing
- Load when: Converting expressions to code or generating formatted output

Common Use Case Patterns

Pattern 1: Solve and Verify

from sympy import symbols, solve, simplify
x = symbols('x')

# Solve equation
equation = x**2 - 5*x + 6
solutions = solve(equation, x)  # [2, 3]

# Verify solutions
for sol in solutions:
    result = simplify(equation.subs(x, sol))
    assert result == 0

Pattern 2: Symbolic to Numeric Pipeline

# 1. Define symbolic problem
x, y = symbols('x y')
expr = sin(x) + cos(y)

# 2. Manipulate symbolically
simplified = simplify(expr)
derivative = diff(simplified, x)

# 3. Convert to numerical function
f = lambdify((x, y), derivative, 'numpy')

# 4. Evaluate numerically
results = f(x_data, y_data)

Pattern 3: Document Mathematical Results

# Compute result symbolically
integral_expr = Integral(x**2, (x, 0, 1))
result = integral_expr.doit()

# Generate documentation
print(f"LaTeX: {latex(integral_expr)} = {latex(result)}")
print(f"Pretty: {pretty(integral_expr)} = {pretty(result)}")
print(f"Numerical: {result.evalf()}")

Integration with Scientific Workflows

With NumPy

import numpy as np
from sympy import symbols, lambdify

x = symbols('x')
expr = x**2 + 2*x + 1

f = lambdify(x, expr, 'numpy')
x_array = np.linspace(-5, 5, 100)
y_array = f(x_array)

With Matplotlib

import matplotlib.pyplot as plt
import numpy as np
from sympy import symbols, lambdify, sin

x = symbols('x')
expr = sin(x) / x

f = lambdify(x, expr, 'numpy')
x_vals = np.linspace(-10, 10, 1000)
y_vals = f(x_vals)

plt.plot(x_vals, y_vals)
plt.show()

With SciPy

from scipy.optimize import fsolve
from sympy import symbols, lambdify

# Define equation symbolically
x = symbols('x')
equation = x**3 - 2*x - 5

# Convert to numerical function
f = lambdify(x, equation, 'numpy')

# Solve numerically with initial guess
solution = fsolve(f, 2)

Quick Reference: Most Common Functions

# Symbols
from sympy import symbols, Symbol
x, y = symbols('x y')

# Basic operations
from sympy import simplify, expand, factor, collect, cancel
from sympy import sqrt, exp, log, sin, cos, tan, pi, E, I, oo

# Calculus
from sympy import diff, integrate, limit, series, Derivative, Integral

# Solving
from sympy import solve, solveset, linsolve, nonlinsolve, dsolve

# Matrices
from sympy import Matrix, eye, zeros, ones, diag

# Logic and sets
from sympy import And, Or, Not, Implies, FiniteSet, Interval, Union

# Output
from sympy import latex, pprint, lambdify, init_printing

# Utilities
from sympy import evalf, N, nsimplify

Getting Started Examples

Example 1: Solve Quadratic Equation

from sympy import symbols, solve, sqrt
x = symbols('x')
solution = solve(x**2 - 5*x + 6, x)
# [2, 3]

Example 2: Calculate Derivative

from sympy import symbols, diff, sin
x = symbols('x')
f = sin(x**2)
df_dx = diff(f, x)
# 2*x*cos(x**2)

Example 3: Evaluate Integral

from sympy import symbols, integrate, exp
x = symbols('x')
integral = integrate(x * exp(-x**2), (x, 0, oo))
# 1/2

Example 4: Matrix Eigenvalues

from sympy import Matrix
M = Matrix([[1, 2], [2, 1]])
eigenvals = M.eigenvals()
# {3: 1, -1: 1}

Example 5: Generate Python Function

from sympy import symbols, lambdify
import numpy as np
x = symbols('x')
expr = x**2 + 2*x + 1
f = lambdify(x, expr, 'numpy')
f(np.array([1, 2, 3]))
# array([ 4,  9, 16])

Troubleshooting Common Issues

"NameError: name 'x' is not defined"
- Solution: Always define symbols using symbols() before use
Unexpected numerical results
- Issue: Using floating-point numbers like 0.5 instead of Rational(1, 2)
- Solution: Use Rational() or S() for exact arithmetic
Slow performance in loops
- Issue: Using subs() and evalf() repeatedly
- Solution: Use lambdify() to create a fast numerical function
"Can't solve this equation"
- Try different solvers: solve, solveset, nsolve (numerical)
- Check if the equation is solvable algebraically
- Use numerical methods if no closed-form solution exists
Simplification not working as expected
- Try different simplification functions: simplify, factor, expand, trigsimp
- Add assumptions to symbols (e.g., positive=True)
- Use simplify(expr, force=True) for aggressive simplification

Additional Resources

Official Documentation: https://docs.sympy.org/
Tutorial: https://docs.sympy.org/latest/tutorials/intro-tutorial/index.html
API Reference: https://docs.sympy.org/latest/reference/index.html
Examples: https://github.com/sympy/sympy/tree/master/examples

how to use sympy

How to use sympy 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 sympy

Execute installation command

Execute the skills CLI command in your project's root directory to begin installation:

$npx skills add https://github.com/K-Dense-AI/scientific-agent-skills --skill sympy

The skills CLI fetches sympy from GitHub repository K-Dense-AI/scientific-agent-skills 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:

◆ Which agents do you want to install to?

│

│ ── Universal (.agents/skills) ── always included ────

│ • Amp

│ • Antigravity

│ • Cline

│ • Codex

│ ●Cursor(selected)

│ • Cursor

│ • Windsurf

Verify installation

Confirm successful installation by checking the skill directory location:

.cursor/skills/sympy

Reload or restart Cursor to activate sympy. Access the skill through slash commands (e.g., /sympy) 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.

Additional Resources

›View source code on GitHub ›Skills CLI documentation ›Learn more about Cursor ›What are agent skills?

List & Monetize Your Skill

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Use Cases▌

Task Automation & Efficiency

Automate repetitive workflows and reduce manual effort

Example

Generate reports, summarize documents, draft communications

✓

Save 3-5 hours per week on routine tasks

Knowledge Enhancement

Learn new skills, understand complex topics, get expert guidance

Example

Explain concepts, provide examples, suggest learning resources

✓

Accelerate learning and skill development by 2x

Quality Improvement

Enhance output quality through reviews, suggestions, and refinements

Example

Review drafts, suggest improvements, catch errors

✓

Improve work quality by 30-40% with less effort

Implementation Guide▌

Prerequisites

›Claude Desktop or compatible AI client with skill support
›Clear understanding of task or problem to solve
›Willingness to iterate and refine outputs

Time Estimate

15-45 minutes depending on use case complexity

Installation Steps

1.Install skill using provided installation command
2.Test with simple use case relevant to your work
3.Evaluate output quality and relevance
4.Iterate on prompts to improve results
5.Integrate into regular workflow if valuable

Common Pitfalls

⚠Expecting perfect results without iteration
⚠Not providing enough context in prompts
⚠Using skill for tasks outside its intended scope
⚠Accepting outputs without review and validation

Best Practices▌

✓ Do

+Start with clear, specific prompts
+Provide relevant context and constraints
+Review and refine all outputs before using
+Iterate to improve output quality
+Document successful prompt patterns

✗ Don't

−Don't use without understanding skill limitations
−Don't skip validation of outputs
−Don't share sensitive information in prompts
−Don't expect skill to replace human judgment

💡 Pro Tips

★Be specific about desired format and style
★Ask for multiple options to choose from
★Request explanations to understand reasoning
★Combine AI efficiency with human expertise

When to Use This▌

✓ Use When

Use when skill capabilities match your task, clear ROI on time saved, and you can validate outputs. Best for repetitive tasks, learning, and quality improvement.

✗ Avoid When

Avoid when task requires deep expertise you can't validate, involves sensitive decisions, or when learning process is more valuable than speed of completion.

Learning Path▌

1Familiarize yourself with skill capabilities and limitations
2Start with low-risk, non-critical tasks
3Progress to more complex and valuable use cases
4Build expertise through regular use and experimentation

Discussion

Product Hunt–style comments (not star reviews)

No comments yet — start the thread.

general reviews

Ratings

4.6★★★★★40 reviews

★★★★★Ganesh Mohane· Dec 28, 2024
sympy fits our agent workflows well — practical, well scoped, and easy to wire into existing repos.
★★★★★Anaya Garcia· Dec 12, 2024
I recommend sympy for anyone iterating fast on agent tooling; clear intent and a small, reviewable surface area.
★★★★★Camila Mehta· Dec 4, 2024
sympy is among the better-maintained entries we tried; worth keeping pinned for repeat workflows.
★★★★★Omar Garcia· Nov 23, 2024
Useful defaults in sympy — fewer surprises than typical one-off scripts, and it plays nicely with `npx skills` flows.
★★★★★Sakshi Patil· Nov 19, 2024
Registry listing for sympy matched our evaluation — installs cleanly and behaves as described in the markdown.
★★★★★Kiara Johnson· Nov 19, 2024
sympy has been reliable in day-to-day use. Documentation quality is above average for community skills.
★★★★★Lucas Brown· Nov 3, 2024
Keeps context tight: sympy is the kind of skill you can hand to a new teammate without a long onboarding doc.
★★★★★Aanya Johnson· Oct 22, 2024
sympy is among the better-maintained entries we tried; worth keeping pinned for repeat workflows.
★★★★★Aanya Brown· Oct 14, 2024
I recommend sympy for anyone iterating fast on agent tooling; clear intent and a small, reviewable surface area.
★★★★★Chaitanya Patil· Oct 10, 2024
sympy reduced setup friction for our internal harness; good balance of opinion and flexibility.

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