Unified math capabilities for computation, solving, and explanation that routes requests to the appropriate tool.

Which tools are used?

SymPy for symbolic math, Z3 for proofs, and Pint for unit conversions, orchestrated by the Math Router.

How do I ask for explanations?

Include explain or what is in your request; the assistant can provide a concept explanation or step-by-step reasoning.

math

npx machina-cli add skill parcadei/Continuous-Claude-v3/math-unified --openclaw

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SKILL.md

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/math - Unified Math Capabilities

One entry point for all computation and explanation. I route to the right tool based on your request.

For formal proofs, use /prove instead.

Quick Examples

You Say	I Use
"Solve x² - 4 = 0"	SymPy solve
"Integrate sin(x) from 0 to π"	SymPy integrate
"Eigenvalues of [[1,2],[3,4]]"	SymPy eigenvalues
"Is x² + 1 > 0 for all x?"	Z3 prove
"Convert 5 miles to km"	Pint
"Explain what a functor is"	Category theory skill

Computation Scripts

SymPy (Symbolic Math)

uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/sympy_compute.py" <command> <args>

Command	Description	Example
`solve`	Solve equations	`solve "x**2 - 4" --var x`
`integrate`	Definite/indefinite integral	`integrate "sin(x)" --var x --lower 0 --upper pi`
`diff`	Derivative	`diff "x**3" --var x`
`simplify`	Simplify expression	`simplify "sin(x)2 + cos(x)2"`
`limit`	Compute limit	`limit "sin(x)/x" --var x --point 0`
`series`	Taylor expansion	`series "exp(x)" --var x --point 0 --n 5`
`dsolve`	Solve ODE	`dsolve "f''(x) + f(x)" --func f --var x`
`laplace`	Laplace transform	`laplace "sin(t)" --var t`

Matrix Operations:

Command	Description
`det`	Determinant
`eigenvalues`	Eigenvalues
`eigenvectors`	Eigenvectors with multiplicities
`inverse`	Matrix inverse
`transpose`	Transpose
`rref`	Row echelon form
`rank`	Matrix rank
`nullspace`	Null space basis
`linsolve`	Linear system Ax=b
`charpoly`	Characteristic polynomial

Number Theory:

Command	Description
`factor`	Factor polynomial
`factorint`	Prime factorization
`isprime`	Primality test
`gcd`	Greatest common divisor
`lcm`	Least common multiple
`modinverse`	Modular inverse

Combinatorics:

Command	Description
`binomial`	C(n,k)
`factorial`	n!
`permutation`	P(n,k)
`partition`	Integer partitions p(n)
`catalan`	Catalan numbers
`bell`	Bell numbers

Z3 (Constraint Solving)

uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/z3_solve.py" <command> <args>

Command	Use Case
`sat`	Is this satisfiable?
`prove`	Is this always true?
`optimize`	Find min/max subject to constraints

Pint (Units)

uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/pint_compute.py" convert <value> <from_unit> <to_unit>

Example: convert 5 miles kilometers

Math Router (Auto-Route)

uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/math_router.py" route "<natural language request>"

Returns the exact command to run. Use when unsure which script.

Topic Skills (For Explanation)

When the request is "explain X" or "what is X", I reference these:

Topic	Skill Location	Key Concepts
Abstract Algebra	`math/abstract-algebra/`	Groups, rings, fields, homomorphisms
Category Theory	`math/category-theory/`	Functors, natural transformations, limits
Complex Analysis	`math/complex-analysis/`	Analytic functions, residues, contour integrals
Functional Analysis	`math/functional-analysis/`	Banach spaces, operators, spectra
Linear Algebra	`math/linear-algebra/`	Matrices, eigenspaces, decompositions
Mathematical Logic	`math/mathematical-logic/`	Propositional, predicate, proof theory
Measure Theory	`math/measure-theory/`	Lebesgue, σ-algebras, integration
Real Analysis	`math/real-analysis/`	Limits, continuity, convergence
Topology	`math/topology/`	Open sets, compactness, connectedness
ODEs/PDEs	`math/odes-pdes/`	Differential equations, boundary problems
Optimization	`math/optimization/`	Convex, LP, gradient methods
Numerical Methods	`math/numerical-methods/`	Approximation, error analysis
Graph/Number Theory	`math/graph-number-theory/`	Graphs, primes, modular arithmetic
Information Theory	`math/information-theory/`	Entropy, coding, channels

Routing Logic

I decide based on your request:

"solve/calculate/compute" → SymPy (exact symbolic)
"is X always true?" → Z3 (constraint proving)
"convert units" → Pint
"explain/what is" → Topic skill for context
"prove formally" → Redirect to /prove

Examples

Solve Equation

User: Solve x² - 5x + 6 = 0
Claude: uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/sympy_compute.py" solve "x**2 - 5*x + 6" --var x
Result: x = 2 or x = 3

Compute Eigenvalues

User: Find eigenvalues of [[2, 1], [1, 2]]
Claude: uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/sympy_compute.py" eigenvalues "[[2,1],[1,2]]"
Result: {1: 1, 3: 1}  (eigenvalue 1 with multiplicity 1, eigenvalue 3 with multiplicity 1)

Prove Inequality

User: Is x² + y² ≥ 2xy always true?
Claude: uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/z3_solve.py" prove "x**2 + y**2 >= 2*x*y"
Result: PROVED (equivalent to (x-y)² ≥ 0)

Convert Units

User: How many kilometers in 26.2 miles?
Claude: uv run python "$CLAUDE_PROJECT_DIR/.claude/scripts/cc_math/pint_compute.py" convert 26.2 miles kilometers
Result: 42.16 km

When to Use /prove Instead

Use /prove when you need:

Machine-verified formal proof (Lean 4)
Category theory proofs (functors, Yoneda, etc.)
Publication-quality verification
Abstract algebra proofs

/math is for computation. /prove is for verification.

Source

git clone https://github.com/parcadei/Continuous-Claude-v3/blob/main/.claude/skills/math-unified/SKILL.mdView on GitHub

Overview

math provides a single entry point for computation, solving, and explanation of mathematical problems, routing requests to the right tool. It leverages SymPy for symbolic math, Z3 for proofs, and Pint for unit conversions. For formal proofs, use the /prove endpoint.

How This Skill Works

When you submit a math task, the Math Router analyzes the request and emits the exact command to run with the appropriate tool. It delegates to SymPy for equations, integrals, and symbolic manipulation, to Z3 for feasibility and truth proofs, and to Pint for unit conversions. For formal proofs, you can use /prove.

When to Use It

Solve algebraic equations and expressions
Compute definite or indefinite integrals and derivatives
Find eigenvalues or matrix operations
Check inequalities or logical truth with formal proofs
Convert units or explain math concepts

Quick Start

Step 1: State your math task (e.g., 'solve x^2-4=0' or 'integrate sin(x)')
Step 2: If unsure which tool to use, run the Math Router to get the exact command
Step 3: Review results and request explanations if needed

Best Practices

Clearly state the exact task (e.g., solve x^2-4=0 or integrate sin(x))
Use the dedicated command names (solve, integrate, diff, limit, etc.) when possible
Prefer SymPy for symbolic math and Z3 for proofs
Use Pint for unit conversions to avoid manual errors
Ask for explanations after results by including explain or what is in your request

Example Use Cases

Solve x^2 - 4 = 0
Integrate sin(x) from 0 to π
Eigenvalues of [[1,2],[3,4]]
Is x^2 + 1 > 0 for all x?
Convert 5 miles to kilometers

Frequently Asked Questions

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