%This Example for using users m-function pr_pen_14000_15_45_subroutine.m was created automatically by PSG Toolbox.

%Function description:

%minimize
%mip = 1
%pr_pen(14000,matrix_scenarios)
%
%constraint: = 0
%linearmulti(pmatrix_graph)
%box: types=1
%solver: cargrb, timelimit = 3600
%
%Input variables:
%
%Inputs                    PSG Type    PSG Object          Location in Problem Statement     Class
%matrix_scenarios_data     data        matrix_scenarios    pr_pen(14000,matrix_scenarios)    double
%matrix_scenarios_vars     vars        matrix_scenarios    pr_pen(14000,matrix_scenarios)    cell
%matrix_scenarios_bench    bench       matrix_scenarios    pr_pen(14000,matrix_scenarios)    double
%matrix_scenarios_prob     prob        matrix_scenarios    pr_pen(14000,matrix_scenarios)    double
%pmatrix_graph_data        data        pmatrix_graph       linearmulti(pmatrix_graph)        double
%pmatrix_graph_vars        vars        pmatrix_graph       linearmulti(pmatrix_graph)        cell
%
%Output variables:
%
%solution_str = string with solution of problem;
%outargstruc_arr = array of output PSG data structures;


%Load data from mat-file:
load('C:\loc\pr_pen_14000_15_45_subroutine_data.mat')

%Save variables from mat-file to Workspace:
tbpsg_export_to_workspace(toolboxstruc_arr)

%Run users m-function pr_pen_14000_15_45_subroutine:

[solution_str,outargstruc_arr] = pr_pen_14000_15_45_subroutine(matrix_scenarios_data,matrix_scenarios_vars,matrix_scenarios_bench,matrix_scenarios_prob,pmatrix_graph_data,pmatrix_graph_vars);

%Extract Objective:
val_obj = tbpsg_objective(solution_str, outargstruc_arr);

disp(' ');
disp('Objective = ');
disp(val_obj);

%Extract optimal solution:
point_data = tbpsg_optimal_point_data(solution_str, outargstruc_arr);

disp(' ');
disp('Optimal point = ');
disp(point_data);

%Extract structure containing PSG solution reports:
output_structure = tbpsg_solution_struct(solution_str, outargstruc_arr);

disp(' ');
disp('Structure with PSG solution = ');
disp(output_structure);

%Uncomment the following lines to extract solutions details:

%output = tbpsg_isoptimal(solution_str, outargstruc_arr);

%output = tbpsg_function_data(solution_str, outargstruc_arr);

%output = tbpsg_function_names(solution_str, outargstruc_arr);

%output = tbpsg_time(solution_str, outargstruc_arr);

%output = tbpsg_optimal_point_vars(solution_str, outargstruc_arr);

%output = tbpsg_constraints_vars(solution_str, outargstruc_arr);

%output = tbpsg_slack_data(solution_str, outargstruc_arr);

%output = tbpsg_dual_data(solution_str, outargstruc_arr);

%output = tbpsg_vector_constraint_data(solution_str, outargstruc_arr);

%output = tbpsg_vector_dual_data(solution_str, outargstruc_arr);

%output = tbpsg_vector_slack_data(solution_str, outargstruc_arr);

%output = tbpsg_matrix_data(solution_str, outargstruc_arr);

%output = tbpsg_matrix_vars(solution_str, outargstruc_arr);

%output = tbpsg_vector_data(solution_str, outargstruc_arr);

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