latex2sympy parses LaTeX math expressions and converts it into the equivalent SymPy form.
ANTLR is used to generate the parser:
$ antlr4 PS.g4 -o gen
In Python 2.7:
from process_latex import process_sympy
process_sympy("\\frac{d}{dx} x^{2}")
# => "diff(x**(2), x)"
LaTeX | Image | Generated SymPy |
---|---|---|
x^{3} |
x**3 |
|
\frac{d}{dx} |t|x |
Derivative(x*Abs(t), x) |
|
\sum_{i = 1}^{n} i |
Sum(i, (i, 1, n)) |
|
\int_{a}^{b} \frac{dt}{t} |
Integral(1/t, (t, a, b)) |
|
(2x^3 - x + z)|_{x=3} |
z + 51 |
Contributors are welcome! Feel free to open a pull request or an issue.