class foxes_opt.problems.layout.geom_layouts.objectives.OMinN(foxes_opt.problems.layout.geom_layouts.objectives.OMaxN)[source]

Minimal number of turbines objective for purely geometrical layouts problems.

Public members

OMinN(problem, name='ominN')[source]

Constructor.

maximize()[source]

Returns flag for maximization of each component.

n_components()[source]

Returns the number of components of the function.

calc_individual(vars_int, vars_float, problem_results, cmpnts=None)[source]

Calculate values for a single individual of the underlying problem.

calc_population(vars_int, vars_float, problem_results, cmpnts=None)[source]

Calculate values for all individuals of a population.

initialize(verbosity=0)

Initialize the object.

property component_names

The names of the components

property var_names_int

The names of the integer variables

property n_vars_int

The number of int variables

property var_names_float

The names of the float variables

property n_vars_float

The number of float variables

vardeps_int()

Gets the dependencies of all components on the function int variables

vardeps_float()

Gets the dependencies of all components on the function float variables

rename_vars_int(varmap)

Rename integer variables.

rename_vars_float(varmap)

Rename float variables.

finalize_individual(vars_int, vars_float, problem_results, ...)

Finalization, given the champion data.

finalize_population(vars_int, vars_float, problem_results, ...)

Finalization, given the final population data.

ana_deriv(vars_int, vars_float, var, components=None)

Calculates the analytic derivative, if possible.

__str__()

Get info string

property initialized

Flag for finished initialization

finalize(verbosity=0)

Finalize the object.