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#####
# From https://github.com/patrick-kidger/sympytorch
# Copied here to allow PySR-specific tweaks
#####
import collections as co
import functools as ft
import sympy
def _reduce(fn):
def fn_(*args):
return ft.reduce(fn, args)
return fn_
torch_initialized = False
torch = None
SingleSymPyModule = None
def _initialize_torch():
global torch_initialized
global torch
global SingleSymPyModule
# Way to lazy load torch, only if this is called,
# but still allow this module to be loaded in __init__
if not torch_initialized:
import torch as _torch
torch = _torch
_global_func_lookup = {
sympy.Mul: _reduce(torch.mul),
sympy.Add: _reduce(torch.add),
sympy.div: torch.div,
sympy.Abs: torch.abs,
sympy.sign: torch.sign,
# Note: May raise error for ints.
sympy.ceiling: torch.ceil,
sympy.floor: torch.floor,
sympy.log: torch.log,
sympy.exp: torch.exp,
sympy.sqrt: torch.sqrt,
sympy.cos: torch.cos,
sympy.acos: torch.acos,
sympy.sin: torch.sin,
sympy.asin: torch.asin,
sympy.tan: torch.tan,
sympy.atan: torch.atan,
sympy.atan2: torch.atan2,
# Note: May give NaN for complex results.
sympy.cosh: torch.cosh,
sympy.acosh: torch.acosh,
sympy.sinh: torch.sinh,
sympy.asinh: torch.asinh,
sympy.tanh: torch.tanh,
sympy.atanh: torch.atanh,
sympy.Pow: torch.pow,
sympy.re: torch.real,
sympy.im: torch.imag,
sympy.arg: torch.angle,
# Note: May raise error for ints and complexes
sympy.erf: torch.erf,
sympy.loggamma: torch.lgamma,
sympy.Eq: torch.eq,
sympy.Ne: torch.ne,
sympy.StrictGreaterThan: torch.gt,
sympy.StrictLessThan: torch.lt,
sympy.LessThan: torch.le,
sympy.GreaterThan: torch.ge,
sympy.And: torch.logical_and,
sympy.Or: torch.logical_or,
sympy.Not: torch.logical_not,
sympy.Max: torch.max,
sympy.Min: torch.min,
sympy.Mod: torch.remainder,
sympy.Heaviside: torch.heaviside,
sympy.core.numbers.Half: (lambda: 0.5),
sympy.core.numbers.One: (lambda: 1.0),
}
class _Node(torch.nn.Module):
"""SympyTorch code from https://github.com/patrick-kidger/sympytorch"""
def __init__(self, *, expr, _memodict, _func_lookup, **kwargs):
super().__init__(**kwargs)
self._sympy_func = expr.func
if issubclass(expr.func, sympy.Float):
self._value = torch.nn.Parameter(torch.tensor(float(expr)))
self._torch_func = lambda: self._value
self._args = ()
elif issubclass(expr.func, sympy.Rational):
# This is some fraction fixed in the operator.
self._value = float(expr)
self._torch_func = lambda: self._value
self._args = ()
elif issubclass(expr.func, sympy.UnevaluatedExpr):
if len(expr.args) != 1 or not issubclass(
expr.args[0].func, sympy.Float
):
raise ValueError(
"UnevaluatedExpr should only be used to wrap floats."
)
self.register_buffer("_value", torch.tensor(float(expr.args[0])))
self._torch_func = lambda: self._value
self._args = ()
elif issubclass(expr.func, sympy.Integer):
# Can get here if expr is one of the Integer special cases,
# e.g. NegativeOne
self._value = int(expr)
self._torch_func = lambda: self._value
self._args = ()
elif issubclass(expr.func, sympy.Symbol):
self._name = expr.name
self._torch_func = lambda value: value
self._args = ((lambda memodict: memodict[expr.name]),)
else:
try:
self._torch_func = _func_lookup[expr.func]
except KeyError:
raise KeyError(
f"Function {expr.func} was not found in Torch function mappings."
"Please add it to extra_torch_mappings in the format, e.g., "
"{sympy.sqrt: torch.sqrt}."
)
args = []
for arg in expr.args:
try:
arg_ = _memodict[arg]
except KeyError:
arg_ = type(self)(
expr=arg,
_memodict=_memodict,
_func_lookup=_func_lookup,
**kwargs,
)
_memodict[arg] = arg_
args.append(arg_)
self._args = torch.nn.ModuleList(args)
def forward(self, memodict):
args = []
for arg in self._args:
try:
arg_ = memodict[arg]
except KeyError:
arg_ = arg(memodict)
memodict[arg] = arg_
args.append(arg_)
return self._torch_func(*args)
class _SingleSymPyModule(torch.nn.Module):
"""SympyTorch code from https://github.com/patrick-kidger/sympytorch"""
def __init__(
self, expression, symbols_in, selection=None, extra_funcs=None, **kwargs
):
super().__init__(**kwargs)
if extra_funcs is None:
extra_funcs = {}
_func_lookup = co.ChainMap(_global_func_lookup, extra_funcs)
_memodict = {}
self._node = _Node(
expr=expression, _memodict=_memodict, _func_lookup=_func_lookup
)
self._expression_string = str(expression)
self._selection = selection
self.symbols_in = [str(symbol) for symbol in symbols_in]
def __repr__(self):
return f"{type(self).__name__}(expression={self._expression_string})"
def forward(self, X):
if self._selection is not None:
X = X[:, self._selection]
symbols = {symbol: X[:, i] for i, symbol in enumerate(self.symbols_in)}
return self._node(symbols)
SingleSymPyModule = _SingleSymPyModule
def sympy2torch(expression, symbols_in, selection=None, extra_torch_mappings=None):
"""Returns a module for a given sympy expression with trainable parameters;
This function will assume the input to the module is a matrix X, where
each column corresponds to each symbol you pass in `symbols_in`.
"""
global SingleSymPyModule
_initialize_torch()
return SingleSymPyModule(
expression, symbols_in, selection=selection, extra_funcs=extra_torch_mappings
)
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