Turn SymPy expressions into PyTorch Modules.
SymPy floats (optionally) become trainable parameters. SymPy symbols are inputs to the Module.
Optimise your symbolic expressions via gradient descent!
pip install sympytorch
Requires Python 3.7+ and PyTorch 1.6.0+ and SymPy 1.7.1+.
import sympy, torch, sympytorch
x = sympy.symbols('x_name')
cosx = 1.0 * sympy.cos(x)
sinx = 2.0 * sympy.sin(x)
mod = sympytorch.SymPyModule(expressions=[cosx, sinx])
x_ = torch.rand(3)
out = mod(x_name=x_) # out has shape (3, 2)
assert torch.equal(out[:, 0], x_.cos())
assert torch.equal(out[:, 1], 2 * x_.sin())
assert out.requires_grad # from the two Parameters initialised as 1.0 and 2.0
assert {x.item() for x in mod.parameters()} == {1.0, 2.0}
sympytorch.SymPyModule(*, expressions, extra_funcs=None)
Where:
expressions
is a list of SymPy expressions.extra_funcs
is a dictionary mapping from customsympy.Function
s to their PyTorch implementation. Defaults to no extra functions.
Instances of SymPyModule
can be called, passing the values of the symbols as in the above example.
SymPyModule
has a method .sympy()
, which returns the corresponding list of SymPy expressions. (Which may not be the same as the expressions it was initialised with, if the values of its Parameters have been changed, i.e. have been learnt.)
Wrapping floats in sympy.UnevaluatedExpr
will cause them not to be trained, by registering them as buffers rather than parameters.
sympytorch.hide_floats(expression)
As a convenience, hide_floats
will take an expression and return a new expression with every float wrapped in a sympy.UnevaluatedExpr
, so that it is interpreted as a buffer rather than a parameter.
Not every PyTorch or SymPy operation is supported -- just the ones that I found I've needed! There's a dictionary here that lists the supported operations. Feel free to submit PRs for any extra operations you think should be in by default. You can also use the extra_funcs
argument to specify extra functions, including custom functions.