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tensorneat-mend/tensorneat/utils/activation/act_sympy.py
wls2002 fb2ae5d2fa add save function in pipeline
2024-06-16 21:47:53 +08:00

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import sympy as sp
import numpy as np
class SympyClip(sp.Function):
@classmethod
def eval(cls, val, min_val, max_val):
if val.is_Number and min_val.is_Number and max_val.is_Number:
return sp.Piecewise(
(min_val, val < min_val), (max_val, val > max_val), (val, True)
)
return None
@staticmethod
def numerical_eval(val, min_val, max_val, backend=np):
return backend.clip(val, min_val, max_val)
def _sympystr(self, printer):
return f"clip({self.args[0]}, {self.args[1]}, {self.args[2]})"
def _latex(self, printer):
return rf"\mathrm{{clip}}\left({sp.latex(self.args[0])}, {self.args[1]}, {self.args[2]}\right)"
class SympySigmoid(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
z = SympyClip(5 * z, -10, 10)
return 1 / (1 + sp.exp(-z))
return None
@staticmethod
def numerical_eval(z, backend=np):
z = backend.clip(5 * z, -10, 10)
return 1 / (1 + backend.exp(-z))
def _sympystr(self, printer):
return f"sigmoid({self.args[0]})"
def _latex(self, printer):
return rf"\mathrm{{sigmoid}}\left({sp.latex(self.args[0])}\right)"
class SympyTanh(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
z = SympyClip(0.6 * z, -3, 3)
return sp.tanh(z)
return None
@staticmethod
def numerical_eval(z, backend=np):
z = backend.clip(0.6*z, -3, 3)
return backend.tanh(z)
class SympySin(sp.Function):
@classmethod
def eval(cls, z):
return sp.sin(z)
@staticmethod
def numerical_eval(z, backend=np):
return backend.sin(z)
class SympyRelu(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
return sp.Piecewise((z, z > 0), (0, True))
return None
@staticmethod
def numerical_eval(z, backend=np):
return backend.maximum(z, 0)
def _sympystr(self, printer):
return f"relu({self.args[0]})"
def _latex(self, printer):
return rf"\mathrm{{relu}}\left({sp.latex(self.args[0])}\right)"
class SympyLelu(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
leaky = 0.005
return sp.Piecewise((z, z > 0), (leaky * z, True))
return None
@staticmethod
def numerical_eval(z, backend=np):
leaky = 0.005
return backend.maximum(z, leaky * z)
def _sympystr(self, printer):
return f"lelu({self.args[0]})"
def _latex(self, printer):
return rf"\mathrm{{lelu}}\left({sp.latex(self.args[0])}\right)"
class SympyIdentity(sp.Function):
@classmethod
def eval(cls, z):
return z
@staticmethod
def numerical_eval(z, backend=np):
return z
class SympyClamped(sp.Function):
@classmethod
def eval(cls, z):
return SympyClip(z, -1, 1)
@staticmethod
def numerical_eval(z, backend=np):
return backend.clip(z, -1, 1)
class SympyInv(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
z = sp.Piecewise((sp.Max(z, 1e-7), z > 0), (sp.Min(z, -1e-7), True))
return 1 / z
return None
@staticmethod
def numerical_eval(z, backend=np):
z = backend.maximum(z, 1e-7)
return 1 / z
def _sympystr(self, printer):
return f"1 / {self.args[0]}"
def _latex(self, printer):
return rf"\frac{{1}}{{{sp.latex(self.args[0])}}}"
class SympyLog(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
z = sp.Max(z, 1e-7)
return sp.log(z)
return None
@staticmethod
def numerical_eval(z, backend=np):
z = backend.maximum(z, 1e-7)
return backend.log(z)
def _sympystr(self, printer):
return f"log({self.args[0]})"
def _latex(self, printer):
return rf"\mathrm{{log}}\left({sp.latex(self.args[0])}\right)"
class SympyExp(sp.Function):
@classmethod
def eval(cls, z):
if z.is_Number:
z = SympyClip(z, -10, 10)
return sp.exp(z)
return None
def _sympystr(self, printer):
return f"exp({self.args[0]})"
def _latex(self, printer):
return rf"\mathrm{{exp}}\left({sp.latex(self.args[0])}\right)"
class SympyAbs(sp.Function):
@classmethod
def eval(cls, z):
return sp.Abs(z)
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