Example: Function call: max_comp_abs(matrix_1).
matrix_1:
x1 |
x2 |
x4 |
2 |
-1 |
1 |
at point_1:
component_name |
value |
x1 x2 x4 |
1 1 1 |
Example: calculation of max_comp_abs_1 function with matrix:
MATLAB code (.\Aorda\PSG\MATLAB\Examples\Func_value_max_comp_abs.m) for function calculation:
%Define data:
H1 = [2 -1 1];
a = [1;1;1];
%=======================================================================
%Calculation of function with PSG Subroutine 'tbpsg_function_value'
%Create the PSG matrix 'matrix_1'(structure containing header and matrix body) and pack it to structure 'toolboxstruc_arr':
toolboxstruc_arr(1) = tbpsg_matrix_pack('matrix_1', H1, [], [], []);
%Create the PSG point 'point_1'(structure containing header and matrix body) and pack it to structure 'toolboxstruc_arr':
toolboxstruc_arr(2) = tbpsg_point_pack('point_1', a, []);
%Calculate max_comp_abs_1 function at point 'point_1':
val1 = tbpsg_function_value('max_comp_abs_1(matrix_1)','point_1',toolboxstruc_arr);
%Display function value:
disp(sprintf('tbpsg_function_value = %g', val1));
%=======================================================================
%Creation of User Subroutine for calculating function value
%User subroutine is similar to the 'functionvalue'
%Create problem statement:
problem_statement = sprintf('%s\n',...
'calculate',...
'Point: point_1',...
' max_comp_abs_1(matrix_1)',...
' ');
%Create Subroutine:
tbpsg_create_user_subroutine(problem_statement,toolboxstruc_arr,'.\','calculate_max_comp_abs_1');
%Uncomment section to call the user subroutine 'calculate_max_comp_abs_1':
%{
%Calculation of function with User Subroutine 'calculate_max_comp_abs_1':
[solution_str,outargstruc_arr] = calculate_max_comp_abs_1(H1,matrix_1_vars,a,point_1_vars);
%Extract function value from the solution report:
val = tbpsg_function_data(solution_str, outargstruc_arr);
%}
Program output:
tbpsg_function_value = 2