ConicSolver-class: The ConicSolver class.
In anqif/cvxr: Disciplined Convex Optimization
ConicSolver-class R Documentation
The ConicSolver class.
Description
Conic solver class with reduction semantics.
Usage
## S4 method for signature 'ConicSolver,Problem'
accepts(object, problem)
## S4 method for signature 'ConicSolver'
reduction_format_constr(object, problem, constr, exp_cone_order)
## S4 method for signature 'ConicSolver'
group_coeff_offset(object, problem, constraints, exp_cone_order)
## S4 method for signature 'ConicSolver,Solution,InverseData'
invert(object, solution, inverse_data)
Arguments
object
A ConicSolver object.
problem
A Problem object.
constr
A Constraint to format.
exp_cone_order
A list indicating how the exponential cone arguments are ordered.
constraints
A list of Constraint objects.
solution
A Solution object to invert.
inverse_data
A InverseData object containing data necessary for the inversion.
Methods (by generic)
-
accepts(object = ConicSolver, problem = Problem): Can the problem be solved with a conic solver?
-
reduction_format_constr(ConicSolver): Return a list representing a cone program whose problem data tensors
will yield the coefficient "A" and offset "b" for the respective constraints:
Linear Equations: A x = b,
Linear inequalities: A x \leq b,
Second order cone: A x \leq_{SOC} b,
Exponential cone: A x \leq_{EXP} b,
Semidefinite cone: A x \leq_{SOP} b.
-
group_coeff_offset(ConicSolver): Combine the constraints into a single matrix, offset.
-
invert(object = ConicSolver, solution = Solution, inverse_data = InverseData): Returns the solution to the original problem given the inverse_data.
anqif/cvxr documentation built on Nov. 11, 2024, 1:52 a.m.
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| ConicSolver-class | R Documentation |
The ConicSolver class.
Description
Conic solver class with reduction semantics.
Usage
## S4 method for signature 'ConicSolver,Problem'
accepts(object, problem)
## S4 method for signature 'ConicSolver'
reduction_format_constr(object, problem, constr, exp_cone_order)
## S4 method for signature 'ConicSolver'
group_coeff_offset(object, problem, constraints, exp_cone_order)
## S4 method for signature 'ConicSolver,Solution,InverseData'
invert(object, solution, inverse_data)
Arguments
object |
A ConicSolver object. |
problem |
A Problem object. |
constr |
A Constraint to format. |
exp_cone_order |
A list indicating how the exponential cone arguments are ordered. |
constraints |
A list of Constraint objects. |
solution |
A Solution object to invert. |
inverse_data |
A InverseData object containing data necessary for the inversion. |
Methods (by generic)
-
accepts(object = ConicSolver, problem = Problem): Can the problem be solved with a conic solver? -
reduction_format_constr(ConicSolver): Return a list representing a cone program whose problem data tensors will yield the coefficient "A" and offset "b" for the respective constraints: Linear Equations:A x = b, Linear inequalities:A x \leq b, Second order cone:A x \leq_{SOC} b, Exponential cone:A x \leq_{EXP} b, Semidefinite cone:A x \leq_{SOP} b. -
group_coeff_offset(ConicSolver): Combine the constraints into a single matrix, offset. -
invert(object = ConicSolver, solution = Solution, inverse_data = InverseData): Returns the solution to the original problem given the inverse_data.
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