CBC_CONIC-class: An interface to the CBC solver

CBC_CONIC-classR Documentation

An interface to the CBC solver

Description

An interface to the CBC solver

Usage

CBC_CONIC()

## S4 method for signature 'CBC_CONIC'
mip_capable(solver)

## S4 method for signature 'CBC_CONIC'
status_map(solver, status)

## S4 method for signature 'CBC_CONIC'
status_map_mip(solver, status)

## S4 method for signature 'CBC_CONIC'
status_map_lp(solver, status)

## S4 method for signature 'CBC_CONIC'
name(x)

## S4 method for signature 'CBC_CONIC'
import_solver(solver)

## S4 method for signature 'CBC_CONIC,Problem'
accepts(object, problem)

## S4 method for signature 'CBC_CONIC,Problem'
perform(object, problem)

## S4 method for signature 'CBC_CONIC,list,list'
invert(object, solution, inverse_data)

## S4 method for signature 'CBC_CONIC'
solve_via_data(
  object,
  data,
  warm_start,
  verbose,
  feastol,
  reltol,
  abstol,
  num_iter,
  solver_opts,
  solver_cache
)

Arguments

solver, object, x

A CBC_CONIC object.

status

A status code returned by the solver.

problem

A Problem object.

solution

The raw solution returned by the solver.

inverse_data

A list containing data necessary for the inversion.

data

Data generated via an apply call.

warm_start

A boolean of whether to warm start the solver.

verbose

A boolean of whether to enable solver verbosity.

feastol

The feasible tolerance.

reltol

The relative tolerance.

abstol

The absolute tolerance.

num_iter

The maximum number of iterations.

solver_opts

A list of Solver specific options

solver_cache

Cache for the solver.

Methods (by generic)

  • mip_capable(CBC_CONIC): Can the solver handle mixed-integer programs?

  • status_map(CBC_CONIC): Converts status returned by the CBC solver to its respective CVXPY status.

  • status_map_mip(CBC_CONIC): Converts status returned by the CBC solver to its respective CVXPY status for mixed integer problems.

  • status_map_lp(CBC_CONIC): Converts status returned by the CBC solver to its respective CVXPY status for linear problems.

  • name(CBC_CONIC): Returns the name of the solver

  • import_solver(CBC_CONIC): Imports the solver

  • accepts(object = CBC_CONIC, problem = Problem): Can CBC_CONIC solve the problem?

  • perform(object = CBC_CONIC, problem = Problem): Returns a new problem and data for inverting the new solution.

  • invert(object = CBC_CONIC, solution = list, inverse_data = list): Returns the solution to the original problem given the inverse_data.

  • solve_via_data(CBC_CONIC): Solve a problem represented by data returned from apply.


anqif/cvxr documentation built on Feb. 1, 2024, 5:42 p.m.