Welcome to SymPy’s documentation!¶
A PDF version of these docs can be found here.
SymPy is a Python library for symbolic mathematics. If you are new to SymPy, start with the Tutorial.
This is the central page for all of SymPy’s documentation.
Contents:
- Installation
- SymPy Tutorial
- SymPy Guides
- Gotchas and Pitfalls
- SymPy Modules Reference
- abc
- Algebras
- Assumptions
- Calculus
- Category Theory
- Code Generation
- Combinatorics
- Concrete
- Core
- Cryptography
- Differential Geometry
- Diophantine
- Discrete
- Numerical Evaluation
- Functions
- Geometry
- Holonomic
- Inequality Solvers
- Integrals
- Computing Integrals using Meijer G-Functions
- The G-Function Integration Theorems
- The Inverse Laplace Transform of a G-function
- Implemented G-Function Formulae
- Internal API Reference
- Interactive
- Lie Algebra
- Logic
- Matrices
- Number Theory
- Numeric Computation
- ODE
- Parsing
- PDE
- Physics
- Plotting
- Polynomial Manipulation
- Printing
- Term Rewriting
- Series
- Sets
- Simplify
- Solvers
- Solveset
- Stats
- Tensor
- Testing
- Utilities
- Vector
- Contributions to Docs
- SymPy Special Topics
- Wiki
- SymPy Papers
- Planet SymPy
- SymPy logos
- Blogs, News, Magazines
- About
- Citing SymPy
- SymPy Documentation Style Guide