ReductionSolver-class: The ReductionSolver class.

Description

The ReductionSolver class.

Usage

# S4 method for ReductionSolver
mip_capable(solver)
# S4 method for ReductionSolver
name(x)
# S4 method for ReductionSolver
import_solver(solver)
# S4 method for ReductionSolver
is_installed(solver)
# S4 method for ReductionSolver
solve_via_data(
  object,
  data,
  warm_start,
  verbose,
  feastol,
  reltol,
  abstol,
  num_iter,
  solver_opts,
  solver_cache
)
# S4 method for ReductionSolver,ANY
reduction_solve(
  object,
  problem,
  warm_start,
  verbose,
  feastol,
  reltol,
  abstol,
  num_iter,
  solver_opts
)
# S4 method for ECOS
solve_via_data(
  object,
  data,
  warm_start,
  verbose,
  feastol,
  reltol,
  abstol,
  num_iter,
  solver_opts,
  solver_cache
)

Arguments

solver, object, x: A ReductionSolver object.
data: Data generated via an apply call.
warm_start: A boolean of whether to warm start the solver.
verbose: An integer number indicating level of solver verbosity.
feastol: The feasible tolerance on the primal and dual residual.
reltol: The relative tolerance on the duality gap.
abstol: The absolute tolerance on the duality gap.
num_iter: The maximum number of iterations.
solver_opts: A list of Solver specific options
solver_cache: Cache for the solver.
problem: A Problem object.

Methods (by generic)

mip_capable(ReductionSolver): Can the solver handle mixed-integer programs?
name(ReductionSolver): Returns the name of the solver
import_solver(ReductionSolver): Imports the solver
is_installed(ReductionSolver): Is the solver installed?
solve_via_data(ReductionSolver): Solve a problem represented by data returned from apply.
reduction_solve(object = ReductionSolver, problem = ANY): Solve a problem represented by data returned from apply.
solve_via_data(ECOS): Solve a problem represented by data returned from apply.