NAG CPP Interface
nagcpp::opt::handle_print (e04ry)

1 Purpose

handle_print is a part of the NAG optimization modelling suite. It allows you to print information about the problem, stored as a handle, such as which parts have already been defined or details of the matrix constraints.

2 Specification

#include "e04/nagcpp_e04ry.hpp"
#include "e04/nagcpp_class_CommE04RA.hpp"
template <typename COMM>

void function handle_print(COMM &comm, const types::f77_integer nout, const string cmdstr, OptionalE04RY opt)
template <typename COMM>

void function handle_print(COMM &comm, const types::f77_integer nout, const string cmdstr)

3 Description

handle_print prints information on a problem handle which has been previously initialized by handle_​init. Various pieces of information can be retrieved and printed to the given output unit. This can be helpful when the function is interfaced from interactive environments, for debugging purposes or to help familiarize you with the NAG optimization modelling suite.
The printer is guided by a command string which contains one or more of the following keywords:
Overview
Gives a brief overview of the problem handle, particularly, which phase it is in, if the problem or optional parameters can be edited and which parts of the problem have already been set. This might be helpful to clarify situations when errorid=2 or 3 is obtained from functions, such as, handle_​set_​linobj, handle_​set_​quadobj, handle_​set_​simplebounds and handle_​set_​linconstr.
Objective
Prints the objective function as it was defined by handle_​set_​linobj and handle_​set_​quadobj if it is linear or quadratic. Prints the sparsity structure of the objective function as it was defined by handle_​set_​nlnobj if it is nonlinear or nonlinear least squares by handle_​set_​nlnls.
Simple bounds
Prints the variable bounds as defined by handle_​set_​simplebounds. This might help you understand the effect of the optional parameter Infinite Bound Size on the bounds.
Linear constraints bounds
Linear constraints detailed
Print bounds or linear constraint matrix as defined by handle_​set_​linconstr.
Cone constraints
Cone constraints detailed
Print all second-order cone constraints as defined by handle_​set_​group. For each constraint print its idgroup, dimension and type. If details are requested, the variables composing the cone constraint are listed as well.
Matrix constraints
Gives a list of the matrix constraints as defined by e04rnf (no CPP interface) and e04rpf (no CPP interface). For each matrix constraint its idblk, dimension and order (e.g., linear, bilinear) are printed.
Matrix constraints detailed
Prints all the matrix constraints including all nonzeros of all the matrices as formulated by e04rnf (no CPP interface) and e04rpf (no CPP interface).
Nonlinear constraints bounds
Nonlinear constraints detailed
Print bounds or sparsity structure of the nonlinear constraints as defined by handle_​set_​nlnconstr.
Multipliers sizes
Prints the expected dimensions of arrays storing the Lagrangian multipliers, such as u and ua of the solver e04svf (no CPP interface) which store the Lagrangian multipliers for standard and matrix constraints, respectively. This might be helpful in particular in connection with Overview and Matrix constraints to check the way the sizes of the arrays are derived.
Options
Prints all the current optional parameters. It flags whether the argument is at its default choice, whether you have set it or whether it is chosen by the solver (for example, options left on ‘AUTO’ setting after the solver has been called).
Note that the output data might not match your input exactly. The sparse matrices are typically transposed, sorted and explicit zeros removed and in certain cases transformed as needed (for example, matrices Qij and Qji are merged by e04rpf (no CPP interface)).
See Section 3.1 in the E04 Chapter Introduction for more details about the NAG optimization modelling suite.

4 References

None.

5 Arguments

1: comm CommE04RA Input/Output
Communication structure. An object of either the derived class CommE04RA or its base class NoneCopyableComm can be supplied. It is recommended that the derived class is used. If the base class is supplied it must first be initialized via a call to opt::handle_init (e04ra).
2: nout types::f77_integer Input
On entry: the Fortran unit number which identifies the file to be written to.
Constraint: nout0.
3: cmdstr string Input
On entry: a command string which contains one or more keywords which identify the piece of information about the handle to be printed. Keywords are case-insensitive and space tolerant. Multiple keywords in cmdstr must be separated by commas or semicolons.
Constraint: cmdstr can only contain one or more of the following accepted keywords: overview, objective, simple bounds, linear constraints bounds, linear constraints detailed, matrix constraints, matrix constraints detailed, nonlinear constraints bounds, nonlinear constraints detailed, multipliers sizes, options.
4: opt OptionalE04RY Input/Output
Optional parameter container, derived from Optional.

6 Exceptions and Warnings

Errors or warnings detected by the function:
All errors and warnings have an associated numeric error code field, errorid, stored either as a member of the thrown exception object (see errorid), or as a member of opt.ifail, depending on how errors and warnings are being handled (see Error Handling for more details).
Raises: ErrorException
errorid=1
comm::handle has not been initialized.
errorid=1
comm::handle does not belong to the NAG optimization modelling suite,
has not been initialized properly or is corrupted.
errorid=1
comm::handle has not been initialized properly or is corrupted.
errorid=6
On entry, nout = value.
Constraint: nout0.
errorid=7
Keyword number value is not recognized.
errorid=7
Keyword number value is not recognized, it is too long.
errorid=7
cmdstr does not contain any keywords or is empty.
errorid=199
An error occurred when writing to output.
errorid=10605
On entry, the communication class value has not been initialized correctly.
errorid=10703
An exception was thrown during IO (writing).
errorid=-99
An unexpected error has been triggered by this routine.
errorid=-399
Your licence key may have expired or may not have been installed correctly.
errorid=-999
Dynamic memory allocation failed.

7 Accuracy

Not applicable.

8 Parallelism and Performance

Please see the description for the underlying computational routine in this section of the FL Interface documentation.

9 Further Comments

None.

10 Example

Examples of the use of this method may be found in the examples for: handle_​solve_​ipopt.