e04rxc is a part of the NAG optimization modelling suite. It allows you to read or write a piece of information to the problem stored in the handle. For example, it may be used to extract the current approximation of the solution during a monitoring step.

2 Specification

#include <nag.h>

void	e04rxc (void handle, const char cmdstr, Integer ioflag, Integer lrarr, double rarr[], NagError fail)

The function may be called by the names: e04rxc or nag_opt_handle_set_get_real.

3 Description

e04rxc adds an additional means of communication to functions within the NAG optimization modelling suite. It allows you to either read or write a piece of information in the handle in the form of a real array. The item is identified by cmdstr and the direction of the communication is set by ioflag.

The following cmdstr are available:

Primal Variables or X: The current value of the primal variables.
Dual Variables or U: The current value of the dual variables (Lagrangian multipliers for bounds and linear constraints).
Dual Cone Variables or UC: The current value of the dual cone variables (Lagrangian multipliers for quadratic cone constraints).

The functionality is supported only by a selection of the solvers in the NAG Library, such as, e04mtc and e04ptc for the retrieval of the approximate solutions within the monitoring step or their final solutions. See the documentation of the individual solvers. See Section 4.1 in the E04 Chapter Introduction for more details about the NAG optimization modelling suite.

4 References

None.

5 Arguments

1: $handle$ – void * Input

On entry: the handle to the problem. It needs to be initialized by e04rac and must not be changed between calls to the NAG optimization modelling suite.

2: $cmdstr$ – const char * Input

On entry: a string which identifies the item within the handle to be read or written. The string is case insensitive and space tolerant.

Constraint:

cmdstr ='Primal Variables','Dual Variables','Dual Cone Variables','X','U' ​ or ​'UC'

3: $ioflag$ – Integer Input

On entry: indicates the direction of the communication.

$ioflag \neq 0$: e04rxc will extract the requested information from the handle to rarr.
$ioflag = 0$: The writing mode will apply and the content of rarr will be copied to the handle.

4: $lrarr$ – Integer * Input/Output

On entry: the dimension of the array rarr.

On exit: the correct expected dimension of rarr if lrarr does not match the item identified by cmdstr (in this case e04rxc returns

fail . code =

NE_DIM_MATCH).

5: $rarr [lrarr]$ – double Input/Output

On entry: if

ioflag = 0

(write mode), rarr must contain the information to be written to the handle; otherwise it does not need to be set.

On exit: if

ioflag \neq 0

(read mode), rarr contains the information requested by cmdstr; otherwise rarr is unchanged.

6: $fail$ – NagError * Input/Output

The NAG error argument (see Section 7 in the Introduction to the NAG Library CL Interface).

6 Error Indicators and Warnings

NE_ALLOC_FAIL: Dynamic memory allocation failed.
See Section 3.1.2 in the Introduction to the NAG Library CL Interface for further information.
NE_BAD_PARAM: On entry, argument $〈value〉$ had an illegal value.
NE_DIM_MATCH: On entry, $lrarr = 〈value〉$ , expected $value = 〈value〉$ .
Constraint: lrarr must match the size of the data identified in cmdstr.
NE_HANDLE: The supplied handle does not define a valid handle to the data structure for the NAG optimization modelling suite. It has not been initialized by e04rac or it has been corrupted.
NE_INTERNAL_ERROR: An internal error has occurred in this function. Check the function call and any array sizes. If the call is correct then please contact NAG for assistance.
See Section 7.5 in the Introduction to the NAG Library CL Interface for further information.
NE_NO_LICENCE: Your licence key may have expired or may not have been installed correctly.
See Section 8 in the Introduction to the NAG Library CL Interface for further information.
NE_PHASE: The request cannot be processed at this phase.

The requested information is not available.
NE_READ_ERROR: Reading mode is not supported for the given cmdstr.
NE_STATE: The request cannot be processed by the current solver.
NE_STR_UNKNOWN: The provided cmdstr is not recognised.
NE_WRITE_ERROR: Writing mode is not supported for the given cmdstr.

7 Accuracy

Not applicable.

8 Parallelism and Performance

e04rxc is not threaded in any implementation.

9 Further Comments

None.

10 Example

This example demonstrates how to use e04rxc to extract the current approximation of the solution when the monitoring function monit is called during the solve by e04mtc.

We solve the following linear programming problem:

- 0.02 x_{1} - 0.2 x_{2} - 0.2 x_{3} - 0.2 x_{4} - 0.2 x_{5} + 0.04 x_{6} + 0.04 x_{7}

subject to the bounds

\begin{matrix} - 0.01 \leq x_{1} \leq 0.01 \\ - 0.1 \leq x_{2} \leq 0.15 \\ - 0.01 \leq x_{3} \leq 0.03 \\ - 0.04 \leq x_{4} \leq 0.02 \\ - 0.1 \leq x_{5} \leq 0.05 \\ - 0.01 \leq x_{6} \\ - 0.01 \leq x_{7} \end{matrix}

and the general constraints

\begin{matrix} x_{1} & + & x_{2} & + & x_{3} & + & x_{4} & + & x_{5} & + & x_{6} & + & x_{7} & = & - 0.13 \\ 0.15 x_{1} & + & 0.04 x_{2} & + & 0.02 x_{3} & + & 0.04 x_{4} & + & 0.02 x_{5} & + & 0.01 x_{6} & + & 0.03 x_{7} & \leq & - 0.0049 \\ 0.03 x_{1} & + & 0.05 x_{2} & + & 0.08 x_{3} & + & 0.02 x_{4} & + & 0.06 x_{5} & + & 0.01 x_{6} & \leq & - 0.0064 \\ 0.02 x_{1} & + & 0.04 x_{2} & + & 0.01 x_{3} & + & 0.02 x_{4} & + & 0.02 x_{5} & \leq & - 0.0037 \\ 0.02 x_{1} & + & 0.03 x_{2} & + & 0.01 x_{5} & \leq & - 0.0012 \\ - 0.0992 & \leq & 0.70 x_{1} & + & 0.75 x_{2} & + & 0.80 x_{3} & + & 0.75 x_{4} & + & 0.80 x_{5} & + & 0.97 x_{6} \\ - 0.003 & \leq & 0.02 x_{1} & + & 0.06 x_{2} & + & 0.08 x_{3} & + & 0.12 x_{4} & + & 0.02 x_{5} & + & 0.01 x_{6} & + & 0.97 x_{7} & \leq & 0.002 . \end{matrix}

During the monitoring step of e04mtc, if the three convergence measures are below an acceptable threshold, the approximate solution is extracted with e04rxc and printed on the standard output.

e04rx: FL CL CPP AD

NAG CL Interfacee04rxc (handle_​set_​get_​real)

▸▿ Contents

1 Purpose

2 Specification

3 Description

4 References

5 Arguments

6 Error Indicators and Warnings

7 Accuracy

8 Parallelism and Performance

9 Further Comments

10 Example

10.1 Program Text

10.2 Program Data

10.3 Program Results

NAG CL Interface
e04rxc (handle_set_get_real)