CEC2022CompositionFunction2#
- class ioh.iohcpp.problem.CEC2022CompositionFunction2(self: ioh.iohcpp.problem.CEC2022CompositionFunction2, instance: int, n_variables: int)#
Bases:
CEC2022
Attributes Summary
The bounds of the problem.
The constraints of the problem.
The data is that being sent to the logger.
The static meta-data of the problem containing, e.g., problem id, instance id, and problem's dimensionality
The optimum and its objective value for a problem instance
The current state of the optimization process containing, e.g., the current solution and the number of function evaluated consumed so far
Methods Summary
Evaluate the problem.
add a constraint
Attach a logger to the problem to allow performance tracking.
create
(*args, **kwargs)Overloaded function.
Remove the specified logger from the problem.
Enforced the bounds (box-constraints) as constraint :param weight: :type weight: The weight for computing the penalty (can be infinity to have strict box-constraints) :param how: :type how: The enforcement strategy, should be one of the 'ioh.ConstraintEnforcement' options :param exponent: :type exponent: The exponent for scaling the contraint
remove a constraint
Reset all state variables of the problem.
update the problem id
update the problem instance
update the problem name
Attributes Documentation
- bounds#
The bounds of the problem.
- constraints#
The constraints of the problem.
- log_info#
The data is that being sent to the logger.
- meta_data#
The static meta-data of the problem containing, e.g., problem id, instance id, and problem’s dimensionality
- optimum#
The optimum and its objective value for a problem instance
- problems#
- state#
The current state of the optimization process containing, e.g., the current solution and the number of function evaluated consumed so far
Methods Documentation
- __call__()#
Evaluate the problem.
- Parameters:
x (list) – the search point to evaluate. It must be a 1-dimensional array/list whose length matches search space’s dimensionality
- Returns:
The evaluated search point
- Return type:
float
Evaluate the problem.
- Parameters:
x (list[list]) – the search points to evaluate. It must be a 2-dimensional array/list whose length matches search space’s dimensionality
- Returns:
The evaluated search points
- Return type:
list[float]
- add_constraint()#
add a constraint
- attach_logger()#
Attach a logger to the problem to allow performance tracking.
- Parameters:
logger (Logger) – A logger-object from the IOHexperimenter logger module.
- static create(*args, **kwargs)#
Overloaded function.
create(problem_name: str, instance_id: int, dimension: int) -> ioh.iohcpp.problem.CEC2022
Create a problem instance
- problem_name: str
a string indicating the problem name.
- instance_id: int
an integer identifier of the problem instance
- dimension: int
the dimensionality of the search space
create(problem_id: int, instance_id: int, dimension: int) -> ioh.iohcpp.problem.CEC2022
Create a problem instance
- problem_id: int
a number indicating the problem numeric identifier.
- instance_id: int
an integer identifier of the problem instance
- dimension: int
the dimensionality of the search space
- detach_logger()#
Remove the specified logger from the problem.
- enforce_bounds()#
Enforced the bounds (box-constraints) as constraint :param weight: :type weight: The weight for computing the penalty (can be infinity to have strict box-constraints) :param how: :type how: The enforcement strategy, should be one of the ‘ioh.ConstraintEnforcement’ options :param exponent: :type exponent: The exponent for scaling the contraint
- remove_constraint()#
remove a constraint
- reset()#
Reset all state variables of the problem.
- set_id()#
update the problem id
- set_instance()#
update the problem instance
- set_name()#
update the problem name