Source code for biogeme.expressions.plus
"""Arithmetic expressions accepted by Biogeme: binary addition
Michel Bierlaire
Sat Jun 14 2025, 10:16:27
"""
from __future__ import annotations
import logging
import jax.numpy as jnp
import pandas as pd
from pytensor.tensor import TensorVariable
from .base_expressions import ExpressionOrNumeric
from .bayesian import PymcModelBuilderType
from .binary_expressions import BinaryOperator
from .jax_utils import JaxFunctionType
from .numeric_expressions import Numeric
logger = logging.getLogger(__name__)
[docs]
class Plus(BinaryOperator):
"""
Addition expression
"""
def __init__(self, left: ExpressionOrNumeric, right: ExpressionOrNumeric):
"""Constructor
:param left: first arithmetic expression
:type left: biogeme.expressions.Expression
:param right: second arithmetic expression
:type right: biogeme.expressions.Expression
"""
super().__init__(left, right)
self.simplified = None
if isinstance(self.left, Numeric) and self.left.get_value() == 0:
self.simplified = self.right
elif isinstance(self.right, Numeric) and self.right.get_value() == 0:
self.simplified = self.left
[docs]
def deep_flat_copy(self) -> Plus:
"""Provides a copy of the expression. It is deep in the sense that it generates copies of the children.
It is flat in the sense that any `MultipleExpression` is transformed into the currently selected expression.
The flat part is irrelevant for this expression.
"""
copy_left = self.left.deep_flat_copy()
copy_right = self.right.deep_flat_copy()
return type(self)(left=copy_left, right=copy_right)
def __str__(self) -> str:
return f'({self.left} + {self.right})'
def __repr__(self) -> str:
return f'({repr(self.left)} + {repr(self.right)})'
[docs]
def get_value(self) -> float:
"""Evaluates the value of the expression
:return: value of the expression
:rtype: float
"""
if self.simplified is not None:
return self.simplified.get_value()
return self.left.get_value() + self.right.get_value()
[docs]
def recursive_construct_jax_function(
self, numerically_safe: bool
) -> JaxFunctionType:
"""
Generates a function to be used by biogeme_jax. Must be overloaded by each expression
:return: the function takes two parameters: the parameters, and one row of the database.
"""
if self.simplified is not None:
return self.simplified.recursive_construct_jax_function(
numerically_safe=numerically_safe
)
left_jax: JaxFunctionType = self.left.recursive_construct_jax_function(
numerically_safe=numerically_safe
)
right_jax: JaxFunctionType = self.right.recursive_construct_jax_function(
numerically_safe=numerically_safe
)
def the_jax_function(
parameters: jnp.ndarray,
one_row: jnp.ndarray,
the_draws: jnp.ndarray,
the_random_variables: jnp.ndarray,
) -> float:
left_value = left_jax(parameters, one_row, the_draws, the_random_variables)
right_value = right_jax(
parameters, one_row, the_draws, the_random_variables
)
result = left_value + right_value
return result
return the_jax_function
[docs]
def recursive_construct_pymc_model_builder(self) -> PymcModelBuilderType:
"""
Generates recursively a function to be used by PyMc. Must be overloaded by each expression
:return: the expression in TensorVariable format, suitable for PyMc
"""
left_pymc = self.left.recursive_construct_pymc_model_builder()
right_pymc = self.right.recursive_construct_pymc_model_builder()
def builder(dataframe: pd.DataFrame) -> TensorVariable:
left_value = left_pymc(dataframe=dataframe)
right_value = right_pymc(dataframe=dataframe)
return left_value + right_value
return builder