Too many output arguments when using "rowfun" function
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GS76
am 11 Jan. 2020
Kommentiert: Stephen23
am 14 Jan. 2020
I am trying to run through through table to generate a number of dat files for running in a FEA software.
I have created a function (very cumbersome, I am sure as I am a newbie programmer) to generate the data files. The function runs successfully one by one, but I was hoping to use the "rowfun" function to generate as many dat files as I need.
All associated files are attached.
The function below is called with:
% Apply the function, |GS_aij|, to the rows of the table, |CC|.
rowfun(GS_aij,CC,"NumOutputs",0)
I then receive the error message. "Too many output arguments".
What am I doing wrong? Any assistance or guidance would be appreciated.
The called function is as follows:
function GS_aij(fa,D,GL,dh,T,OR,ES,RL_ES,NP,P,HDI,SDI,...
HD1,HD2,HD3,HD4,HD5,HD6,HD7,HD8,HD9,HD10,HD11,HD12,HD13,...
HD14,HD15,HD16,HD17,HD18,HD19,HD20,ET,E,v,BASE,RO,CT)
% GS_aij The generation of *.dat files for Ansys Mechanical APDL.
% The generation of *.dat files for Ansys Mechanical APDL. The most
% critical variables have been selected as part of a Design of
% Experiments, to optimise the aij calibration coefficients.
filemat=load('aij_bij.mat');
aij_new=filemat.aij;
Updating the "aij" calibration matrix with the new inputs.
aij_new(3)="/filname,"+fa+",0!Changes the jobname for the analysis.";
aij_new(5)="*set,HD_D,"+D+"!Sets the variable for the (strain gauge mean diameter) for the gauge, in microns.";
aij_new(6)="*set,HD_GL,"+GL+"!Sets the variable for the (strain gauge grid length) for the gauge, in microns.";
aij_new(7)="*set,HD_D0,"+dh+"!Sets the variable for the drilled hole diameter, in microns.";
aij_new(8)="*set,sample_th,"+T+"!Sets the variable for the (work piece thickness) for the gauge, in microns.";
aij_new(9)="*set,sample_radia,"+OR+"!Sets the variable for the (work piece outer radius) for the gauge, in microns.";
aij_new(10)="*set,es,"+ES+"!Sets the variable for the finite element size (microns). Recommended size should not be larger than smallest hole depth increment.";
aij_new(11)="*set,rl_es,"+RL_ES+"!Sets the variable for the element size. Maximum element size should be equal to the smallest hole depth increment.";
aij_new(12)="*set,sample_stress,"+P+"!Sets the variable for the pressure, on the inner radius of drilled hole.";
aij_new(13)="*set,n,"+HDI+"!Sets the variable for the number of drilled hole depth increments.";
aij_new(14)="*set,p,"+SDI+"!Sets the variable for the number of stress depth increments.";
aij_new(15)="*set,np,"+NP+"!Sets the variable for the number of nodal planes for general axisymmetric analysis.";
% Drilled depth increments, from the surface in microns.
switch HDI
case '1'
aij_new(16)="*set,HD,"+HD1+"!Sets the variable for the number of 1st drilled hole depth increment.";
case '2'
aij_new(16)="*set,HD,"+HD2+"!Sets the variable for the number of 2nd drilled hole depth increment.";
case '3'
aij_new(16)="*set,HD,"+HD3+"!Sets the variable for the number of 3rd drilled hole depth increment.";
case '4'
aij_new(16)="*set,HD,"+HD4+"!Sets the variable for the number of 4th drilled hole depth increment.";
case '5'
aij_new(16)="*set,HD,"+HD5+"!Sets the variable for the number of 5th drilled hole depth increment.";
case '6'
aij_new(16)="*set,HD,"+HD6+"!Sets the variable for the number of 6th drilled hole depth increment.";
case '7'
aij_new(16)="*set,HD,"+HD7+"!Sets the variable for the number of 7th drilled hole depth increment.";
case '8'
aij_new(16)="*set,HD,"+HD8+"!Sets the variable for the number of 8th drilled hole depth increment.";
case '9'
aij_new(16)="*set,HD,"+HD9+"!Sets the variable for the number of 9th drilled hole depth increment.";
case '10'
aij_new(16)="*set,HD,"+HD10+"!Sets the variable for the number of 10th drilled hole depth increment.";
case '11'
aij_new(16)="*set,HD,"+HD11+"!Sets the variable for the number of 11th drilled hole depth increment.";
case '12'
aij_new(16)="*set,HD,"+HD12+"!Sets the variable for the number of 12th drilled hole depth increment.";
case '13'
aij_new(16)="*set,HD,"+HD13+"!Sets the variable for the number of 13th drilled hole depth increment.";
case '14'
aij_new(16)="*set,HD,"+HD14+"!Sets the variable for the number of 14th drilled hole depth increment.";
case '15'
aij_new(16)="*set,HD,"+HD15+"!Sets the variable for the number of 15th drilled hole depth increment.";
case '16'
aij_new(16)="*set,HD,"+HD16+"!Sets the variable for the number of 16th drilled hole depth increment.";
case '17'
aij_new(16)="*set,HD,"+HD17+"!Sets the variable for the number of 17th drilled hole depth increment.";
case '18'
aij_new(16)="*set,HD,"+HD18+"!Sets the variable for the number of 18th drilled hole depth increment.";
case '19'
aij_new(16)="*set,HD,"+HD19+"!Sets the variable for the number of 19th drilled hole depth increment.";
case '20'
aij_new(16)="*set,HD,"+HD20+"!Sets the variable for the number of 20th drilled hole depth increment.";
end
aij_new(18)="et,1,"+ET+",,np!Definition of the element type (linear solid272 or the quadratic solid273) and the number of nodal planes.";
aij_new(20)="mp,ex,1,"+E+"!Enter the modulus of elasticity, in MPa.";
aij_new(21)="mp,prxy,1,"+v+"!Enter the poisson's ratio.";
% Outer Radius
switch RO
case 'RO_NA'
aij_new(65)="!d,all,,,,,,,,,,,";
case 'RO_UX'
aij_new(65)="d,all,,,,,,ux,,,,,";
case 'RO_UY'
aij_new(65)="d,all,,,,,,,uy,,,,";
case 'RO_UXY'
aij_new(65)="d,all,,,,,,ux,uy,,,,";
end
% Base
switch BASE
case 'Base_UYZ'
aij_new(68)="d,all,,,,,,,uy,uz,,,";
case 'Base_UXYZ'
aij_new(68)="d,all,,,,,,ux,uy,uz,,,";
end
aij_new(74)="eqslv,jcg,"+CT;
% Stress depth increments in microns.
switch SDI
case '1'
aij_new(77)="nsel,r,loc,z,1.5,-"+HD1+"-1.5";
case '2'
aij_new(77)="nsel,r,loc,z,-"+HD1+"+2.5,-"+HD2+"-2.5";
case '3'
aij_new(77)="nsel,r,loc,z,-"+HD2+"+2.5,-"+HD3+"-2.5";
case '4'
aij_new(77)="nsel,r,loc,z,-"+HD3+"+2.5,-"+HD4+"-2.5";
case '5'
aij_new(77)="nsel,r,loc,z,-"+HD4+"+2.5,-"+HD5+"-2.5";
case '6'
aij_new(77)="nsel,r,loc,z,-"+HD5+"+2.5,-"+HD6+"-2.5";
case '7'
aij_new(77)="nsel,r,loc,z,-"+HD6+"+2.5,-"+HD7+"-2.5";
case '8'
aij_new(77)="nsel,r,loc,z,-"+HD7+"+2.5,-"+HD8+"-2.5";
case '9'
aij_new(77)="nsel,r,loc,z,-"+HD8+"+2.5,-"+HD9+"-2.5";
case '10'
aij_new(77)="nsel,r,loc,z,-"+HD9+"+2.5,-"+HD10+"-2.5";
case '11'
aij_new(77)="nsel,r,loc,z,-"+HD10+"+2.5,-"+HD11+"-2.5";
case '12'
aij_new(77)="nsel,r,loc,z,-"+HD11+"+2.5,-"+HD12+"-2.5";
case '13'
aij_new(77)="nsel,r,loc,z,-"+HD12+"+2.5,-"+HD13+"-2.5";
case '14'
aij_new(77)="nsel,r,loc,z,-"+HD13+"+2.5,-"+HD14+"-2.5";
case '15'
aij_new(77)="nsel,r,loc,z,-"+HD14+"+2.5,-"+HD15+"-2.5";
case '16'
aij_new(77)="nsel,r,loc,z,-"+HD15+"+2.5,-"+HD16+"-2.5";
case '17'
aij_new(77)="nsel,r,loc,z,-"+HD16+"+2.5,-"+HD17+"-2.5";
case '18'
aij_new(77)="nsel,r,loc,z,-"+HD17+"+2.5,-"+HD18+"-2.5";
case '19'
aij_new(77)="nsel,r,loc,z,-"+HD18+"+2.5,-"+HD19+"-2.5";
case '20'
aij_new(77)="nsel,r,loc,z,-"+HD19+"+2.5,-"+HD20+"-2.5";
end
aij_new(99)="*cfopen,"+fa+"_n_%n%_p_%p%_es_%es%_rl_es_%rl_es%_np_%np%_sr_%sample_radia%_st_%sample_th%,txt";
% Creation of the *.dat file.
filenamedat=fa+".dat";
fileID=fopen(filenamedat,'w'); % Open and name an empty text
% file.
fprintf(fileID,'%s\n',aij_new); % Write data to the text file.
fclose(fileID); % Close the text file.
clear % Clear the workspace.
clc % Clear command window.
end
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Akzeptierte Antwort
Guillaume
am 13 Jan. 2020
Glad the problem is resolved, however I would strongly recommend to refactor the code. I like rowfun, varfun, etc. but for you I think it's the wrong function to use and it greatly complicates your code. Passing that amount of variables to a function, particularly numbered variables is a problem.
Instead, I would suggest a completely different design. Most of your code follows the same pattern, build a string consisting of 3 parts: two literal parts and a part in between taken from a table variable. Said variable can be static or numbered. The whole lot is added to a given index of a variable. Rather than implementing all that description in code, abstract it into a cell array or table:
%mods: a table describing the modifications to be done. Consists of 5 variables:
% index: which index of aij to write to
% prefix: literal string prefix
% suffix: literal string suffix
% varname: name of variable containing text to insert between prefix and suffix. May need a number appended
% dynsource: if not empty, add value of variable dynsource to varname
mods = cell2table(...
{3, "/filname,", "fa", ",0!Changes the jobname for the analysis.", [];
5, "*set,HD_D,", "D", "!Sets the variable for the (strain gauge mean diameter) for the gauge, in microns.", [];
6, "*set,HD_GL,", "GL", "!Sets the variable for the (strain gauge grid length) for the gauge, in microns.", [];
7, "*set,HD_D0,", "dh", "!Sets the variable for the drilled hole diameter, in microns.", []; ...some lines omitted
16, "*set,HD,", "HD", "!Sets the variable for the number of 1st drilled hole depth increment.", "HDI";
18, "et,1,", "ET", ",,np!Definition of the element type (linear solid272 or the quadratic solid273) and the number of nodal planes.", []}, ...more lines omitted
'VariableNames', {'index', 'prefix', 'suffix', 'varname', 'dynsource'});
I'm assuming the variable names that you've defined in your function are the same as the actual variable names of your table.
I would then use a plain loop instead of rowfun:
filemat=load('aij_bij.mat');
for CCrow = 1:height(CC)
aij = filemat.aij
%now loop over the rows of mods
for mrow = 1:height(mods)
sourcevar = mods.varname(mrow);
if ~isempty(mods.dynsource(mrow))
sourcevar = sprintf('%s%d', sourcevar, CC.{CCrow, mods.dynsource(row)});
end
aij(mods.index(mrow)) = mods.prefix(mrow) + CC.{CCrow, sourcevar} + mods.suffix(mrow);
end
end
%...
That's already most of your code shortened to a few lines. It's also easier to edit if you want to modify the text format, etc. The mods table could even be read from a text or excel file.
You can either have a separate table for the SDI values or add two optional variables to the mods table.
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