mapSolution broken in R2019b?

15 Ago 2020
2 Risposte
Risposta accettata
Aggiornato 1 Set 2020
4 Visualizzazioni (30 giorni)

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In R2019a, the following code works as intended,
%% Define the variables
x=optimvar('x',{'x1','x2'},'LowerBound',[-100,-200]);
y=optimvar('y',1,3,'LowerBound',[0 0 0],'UpperBound',[+300,+400,+500]);
%% Define some constraints
C.inequ=2*sum(y)+sum(x)<=1000;
C.equ=5*sum(x)==100;
prob=optimproblem('Constraints',C,'Objective',sum(x)+sum(y));
idx=mapSolution(prob,1:5)
resulting in the output,
idx =
struct with fields:
x: [1 2]
y: [1 2 3]
Something must have been changed in R2019b/R2020a, however, because I instead get an error:
Not enough input arguments.
Error in optim.internal.problemdef.ProblemImpl/mapSolution
Error in test (line 12)
idx=mapSolution(prob,1:5)
Were there any intentional changes in the behavior of the mapSolution function, and if so how do I get the code above to work in current Matlab?

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Matt J
Matt J il 16 Ago 2020
There is a qualifying Note there, however, showing that certain subsets of the input argument list are allowable... Why would the two-input combination no longer be allowable based on what's written there, and considering also that it clearly did work in R2019a?
Walter Roberson
Walter Roberson il 16 Ago 2020
Darn, it is a .p file so we can't read it.

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 Risposta accettata

Paul Kerr-Delworth
Paul Kerr-Delworth il 28 Ago 2020

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Hi Matt and Walter,
Firstly Matt, many apologies that you've run into this unintended behavior. Also, many thanks to you both for looking into this and flagging it up.
What has happened here? The short answer is that mapSolution was made an internal function in R2019a and replaced with varindex. Once we made mapSolution internal, we repurposed it in R2019b leading to the internal error you encountered. We will tidy up the error and add a note in the documentation pointing you to varindex
Matt's original code works with varindex
%% Define the variables
x=optimvar('x',{'x1','x2'},'LowerBound',[-100,-200]);
y=optimvar('y',1,3,'LowerBound',[0 0 0],'UpperBound',[+300,+400,+500]);
%% Define some constraints
C.inequ=2*sum(y)+sum(x)<=1000;
C.equ=5*sum(x)==100;
prob=optimproblem('Constraints',C,'Objective',sum(x)+sum(y));
idx = varindex(prob);
Resulting in the output
idx =
struct with fields:
x: [1 2]
y: [3 4 5]
Also, varindex allows you to get the variable index by name, e.g.
idx = varindex(prob, 'y')
Resulting a double as the output
idx =
3 4 5
Matt, may I ask if you were aware of varindex? Also, is there anything in mapSolution that you are relying on that varindex doesn't provide?
Thanks again for flagging this and hope varindex helps!
Cheers,
Paul
Documentation for varindex:
https://uk.mathworks.com/help/optim/ug/optim.problemdef.optimizationproblem.varindex.html

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Matt J
Matt J il 28 Ago 2020
Thanks, Paul. I was not aware of varindex, but regardless, I need a solution which is back compatible with pre-R2019 Matlab versions.
Paul Kerr-Delworth
Paul Kerr-Delworth il 28 Ago 2020
Hi Matt,
Thanks for accepting the answer and for your comment - much appreciated!
Just to clarify, I guess ideally you'd like mapSolution to work as it did in R2019a and earlier. Would you be happy if there were another function that mapped the solution output from the Solver-Based interface to a solution structure that is returned from the Problem-Based interface? Or, do you really just want mapSolution back?
In the meantime, would this solution work for you? You'd need to add this function to your path and replace all your mapSolution calls to mattMapSolution, but this should reproduce mapSolution.
function solstruct = mattMapSolution(prob, solvec)
idx = varindex(prob);
varNames = fieldnames(idx);
for i = 1:length(varNames)
solstruct.(varNames{i}) = solvec(idx.(varNames{i}));
end
Cheers,
Paul
Matt J
Matt J il 30 Ago 2020
Modificato: Matt J il 31 Ago 2020
Hi Paul,
What I am really looking for is a way to implement varindex for people with older versions of Matlab (R2018b and earlier), but which will also continue to work in R2019a and later. The solution I mentioned in my answer below,
solstruct = mapSolution(prob,solvec,[],[],[],[],[])
appears to be a sufficient workaround, although it is a bit unattractive that I need to supply solvec at all. For me, solvec will always be 1:N, where N is the total number of unknowns in the problem, so it would be nice to have a way, for preR2019 Matlab versions, to get N directly from prob.
Thanks again for your help!
Paul Kerr-Delworth
Paul Kerr-Delworth il 1 Set 2020
Modificato: Paul Kerr-Delworth il 1 Set 2020
Hi Matt,
Many thanks for the clarification, that's really helpful for us.
For a backwards compatible solution that can work, you can add your own version of varindex to the path as a separate function
function solstruct = varindex(prob)
if ~isa(prob, 'optim.problemdef.OptimizationProblem')
error('First input to VARINDEX must be an OptimizationProblem');
end
if verLessThan('matlab', '9.6')
error('This function is intended for R2017b - R2018b. Make this a separate function on the path.')
end
N = sum(structfun(@numel, prob.Variables));
solstruct = mapSolution(prob, 1:N);
end
Now for R2017b-R2018b, this function will be called as varindex doesn't exist. From 19a onwards the shipping OptimizationProblem method will be called as it is higher in the precedence order than your varindex.
https://uk.mathworks.com/help/matlab/matlab_prog/function-precedence-order.html
Would you be happy to move to varindex with this solution?
Cheers.
Paul
Matt J
Matt J il 1 Set 2020
Thanks,Paul. That looks great. And yes, varindex is what I would use.

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Più risposte (1)

Matt J
Matt J il 17 Ago 2020
Modificato: Matt J il 25 Ago 2020

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This seems to be a simple work-around,
idx=mapSolution(prob,1:5,[],[],[],[],[])
but I can't help wondering if it's really supposed to be required. It is very uncharacteristic of TMW-supplied commands to require trailing [] input arguments.

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Walter Roberson
Walter Roberson il 25 Ago 2020
Internal code does not do detailed argument checking for performance reasons.

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