NPV\_UnaryFunctionExpression ============================ (class from :py:mod:`pyomo.core.expr.numeric_expr`) .. testsetup:: * # import everything from the module containing this class so that # doctests for the class docstrings see the correct environment from pyomo.core.expr.numeric_expr import * try: from pyomo.core.expr.numeric_expr import _autosummary_doctest_setup _autosummary_doctest_setup() except ImportError: pass .. currentmodule:: pyomo.core.expr.numeric_expr .. autoclass:: pyomo.core.expr.numeric_expr::NPV_UnaryFunctionExpression :members: :show-inheritance: :inherited-members: .. automethod:: __init__ .. rubric:: Methods .. autosummary:: ~NPV_UnaryFunctionExpression.__init__ ~NPV_UnaryFunctionExpression.arg ~NPV_UnaryFunctionExpression.clone ~NPV_UnaryFunctionExpression.create_node_with_local_data ~NPV_UnaryFunctionExpression.create_potentially_variable_object ~NPV_UnaryFunctionExpression.getname ~NPV_UnaryFunctionExpression.is_component_type ~NPV_UnaryFunctionExpression.is_constant ~NPV_UnaryFunctionExpression.is_expression_type ~NPV_UnaryFunctionExpression.is_fixed ~NPV_UnaryFunctionExpression.is_indexed ~NPV_UnaryFunctionExpression.is_logical_type ~NPV_UnaryFunctionExpression.is_named_expression_type ~NPV_UnaryFunctionExpression.is_numeric_type ~NPV_UnaryFunctionExpression.is_parameter_type ~NPV_UnaryFunctionExpression.is_potentially_variable ~NPV_UnaryFunctionExpression.is_reference ~NPV_UnaryFunctionExpression.is_relational ~NPV_UnaryFunctionExpression.is_variable_type ~NPV_UnaryFunctionExpression.nargs ~NPV_UnaryFunctionExpression.polynomial_degree ~NPV_UnaryFunctionExpression.potentially_variable_base_class ~NPV_UnaryFunctionExpression.size ~NPV_UnaryFunctionExpression.to_string .. rubric:: Attributes .. autosummary:: ~NPV_UnaryFunctionExpression.PRECEDENCE ~NPV_UnaryFunctionExpression.args ~NPV_UnaryFunctionExpression.local_name ~NPV_UnaryFunctionExpression.name .. rubric:: Member Documentation