pywrapper

(class from pyomo.solvers.plugins.solvers.pywrapper)

class pyomo.solvers.plugins.solvers.pywrapper.pywrapper(*args, **kwds)[source]

Bases: OptSolver

Direct python solver interface

__init__(**kwds): Constructor

Methods

`__init__`(**kwds)	Constructor
`available`([exception_flag])	True if the solver is available
`config_block`([init])
`default_variable_value`()
`has_capability`(cap)	Returns a boolean value representing whether a solver supports a specific feature.
`license_is_valid`()	True if the solver is present and has a valid license (if applicable)
`problem_format`()	Returns the current problem format.
`reset`()	Reset the state of the solver
`results_format`()	Returns the current results format.
`set_callback`(name[, callback_fn])	Set the callback function for a named callback.
`set_options`(istr)
`set_problem_format`(format)	Set the current problem format (if it's valid) and update the results format to something valid for this problem format.
`set_results_format`(format)	Set the current results format (if it's valid for the current problem format).
`solve`(args, *kwds)	Solve the problem
`version`()	Returns a 4-tuple describing the solver executable version.
`warm_start_capable`()	True is the solver can accept a warm-start solution

Attributes

`keepfiles`
`log_file`
`soln_file`
`suffixes`
`symbolic_solver_labels`
`tee`
`warm_start_file_name`
`warm_start_solve`

Member Documentation

available(exception_flag=True): True if the solver is available

has_capability(cap)

Returns a boolean value representing whether a solver supports a specific feature. Defaults to ‘False’ if the solver is unaware of an option. Expects a string.

Example: # prints True if solver supports sos1 constraints, and False otherwise print(solver.has_capability(‘sos1’)

# prints True is solver supports ‘feature’, and False otherwise print(solver.has_capability(‘feature’)

Parameters:: cap (str) – The feature
Returns:: val – Whether or not the solver has the specified capability.
Return type:: bool

license_is_valid(): True if the solver is present and has a valid license (if applicable)

problem_format(): Returns the current problem format.

reset(): Reset the state of the solver

results_format(): Returns the current results format.

set_callback(name, callback_fn=None)

Set the callback function for a named callback.

A call-back function has the form:

def fn(solver, model):
pass

where ‘solver’ is the native solver interface object and ‘model’ is a Pyomo model instance object.

set_problem_format(format): Set the current problem format (if it’s valid) and update the results format to something valid for this problem format.

set_results_format(format): Set the current results format (if it’s valid for the current problem format).

solve(*args, **kwds): Solve the problem

version(): Returns a 4-tuple describing the solver executable version.

warm_start_capable(): True is the solver can accept a warm-start solution