Clear Filters
Clear Filters

i have this problem, what i suppose to do?

2 views (last 30 days)
mohammad fahmi arieef khairil anuar
Commented: John D'Errico on 13 Dec 2015
the problem was like this.
>> DBFBA(model,3,Ex_Succ(e),Ex_glc(e),10)
Undefined function or variable 'e'.
here is my coding
function [DBFBASol] = DBFBA(model,list,targetRxn,substrateRxn,MaxKOs)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
imax =10; % number of iterations (e.g. 1000-5000)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%Function Parameters%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
dim = length(list);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%The Bees Algorithm%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%Parameters%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
n = round(dim + (dim/4)); % Number of scout bees (e.g. 40-100)
pop = n;
m = 15; % Number of selected locations (e.g. 10-50)
%e = 3; % Number of elite selected points (e.g. 10-50)
e = MaxKOs;
%nsp = 8; % Number of Bees around each selected locations ( except the ellit location )
nsp = round(m/2);
%nep = 6; % Number of Bees around each elite locations
nep = (e * 2);
ngh = 30; % Patch radius for neighbourhood search
sc = 1; % Shrinking constant; defined as percentage (%) and range is between 0-100
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
global HTABLE
HTABLE = java.util.Hashtable;
global MaxKnockOuts
%%%%%%%%%%%%%%%%%
%Reactions/Genes%
%%%%%%%%%%%%%%%%%
rxnok = 1;
geneok = 1;
for i = 1:dim
if(~ ismember(list{i}, model.rxns)), rxnok = 0; end
if(~ ismember(list{i}, model.genes)),geneok = 0; end
end
if geneok
display('assuming list is genes');
elseif rxnok
display('assuming list is reactions');
else
display('list appears to be neither genes nor reactions: aborting');
return;
end
if nargin < 5
MaxKnockOuts = (dim * 0.1);
else
MaxKnockOuts = MaxKOs;
end
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
format long
aa = double(zeros(1,pop));
fit = double(zeros(1,n));
nghx=ngh; %%define patch size
tstart = clock;
%%%%%%%%Initial Random generation %%%%%%
for(i=1:n)
perm= randperm(dim);
for k =1:MaxKnockOuts
bPos(perm(k),i)=1;
end
end
for(i=1:n)
rxn_vector = bPos(:,i);
rxnList = list(logical(rxn_vector));
nummutations = sum(rxn_vector);
if nummutations > MaxKnockOuts
continue;
end
[isValidRxn,removeInd] = ismember(rxnList,model.rxns);
removeInd = removeInd(isValidRxn);
modelKO = model;
modelKO.ub(removeInd) = 0;
modelKO.lb(removeInd) = 0;
FBAsolution = optimizeCbModel(modelKO);
growthrate = FBAsolution.f;
if growthrate < .10
continue;
end
modelFixGR = modelKO;
gamma = 0.9*growthrate;
new_gr = FBAsolution.f - gamma;
modelFixGR = changeRxnBounds(modelKO,modelKO.rxns(modelKO.c==1),new_gr,'l');
modelFixGR = changeObjective(modelFixGR,targetRxn);
solMin = optimizeCbModel(modelFixGR,'max');
minProd = solMin.f;
fit(i) = minProd * (.98^nummutations)* growthrate;
end
%%%%%%%%%%%%End of initial random generation
%%%%%%%Run until maximum number of iteration met%%%%%%%%%
for iter = 1 : imax
disp(sprintf('Interation Number: %02.0f',iter));
%%%%Sorting fitnesses & positions
[fit sortedFit bPosSort]= funcSort(fit, bPos, dim, n);
%%%%%%%%%%Choosing best m
for(j= 1 : m)
for(d= 1 : dim)
candidx(d,j) = double(bPosSort(d,j));
end
end
%%%%%%Search inrando the neighbourhood
pop = candidx(:,1:m);
popold = zeros(size(pop)); % toggle population
val = zeros(1,m); % create and reset the "cost array"
bestmem = zeros(1,dim); % best population member ever
bestmemit = zeros(1,dim); % best population member in iteration
nfeval = 0; % number of function evaluations
CR = 0.5;
F = 1;
refresh = 5;
refresh = floor(refresh);
%------Evaluate the best member after initialization----------------------
ibest = 1; % start with first population member
for i=1 : m
rxn_vector = pop(:,i);
rxnList = list(logical(rxn_vector));
nummutations = sum(rxn_vector);
if nummutations > MaxKnockOuts
continue;
end
[isValidRxn,removeInd] = ismember(rxnList,model.rxns);
removeInd = removeInd(isValidRxn);
modelKO = model;
modelKO.ub(removeInd) = 0;
modelKO.lb(removeInd) = 0;
FBAsolution = optimizeCbModel(modelKO);
growthrate2 = FBAsolution.f;
if growthrate2 < .10
continue;
end
modelFixGR = modelKO;
gamma = 0.9*growthrate;
new_gr = FBAsolution.f - gamma;
modelFixGR = changeRxnBounds(modelKO,modelKO.rxns(modelKO.c==1),new_gr,'l');
modelFixGR = changeObjective(modelFixGR,targetRxn);
solMin = optimizeCbModel(modelFixGR,'max');
minProd = solMin.f;
val(i) = -minProd * (.98^nummutations)* growthrate;
end
bestval = val(1); % best objective function value so far
nfeval = nfeval + 1;
if (val(i) < bestval) % if member is better
ibest = i; % save its location
bestval = val(i);
end
bestmemit = pop(: , ibest); % best member of current iteration
bestvalit = bestval; % best value of current iteration
bestmem = bestmemit; % best member ever
%------DE-Minimization---------------------------------------------
%------popold is the population which has to compete. It is--------
%------static through one iteration. pop is the newly--------------
%------emerging population.----------------------------------------
pm1 = zeros(dim, m); % initialize population matrix 1
pm2 = zeros(dim, m); % initialize population matrix 2
pm3 = zeros(dim, m); % initialize population matrix 3
pm4 = zeros(dim, m); % initialize population matrix 4
pm5 = zeros(dim, m); % initialize population matrix 5
bm = zeros(dim, m); % initialize bestmember matrix
ui = zeros(dim, m); % intermediate population of perturbed vectors
mui = zeros(dim, m); % mask for intermediate population
mpo = zeros(dim, m); % mask for old population
rot = (0:1:m-1); % rotating index array (size NP)
rotd= (0:1:dim-1); % rotating index array (size D)
rt = zeros(m); % another rotating index array
rtd = zeros(dim); % rotating index array for exponential crossover
a1 = zeros(m); % index array
a2 = zeros(m); % index array
a3 = zeros(m); % index array
a4 = zeros(m); % index array
a5 = zeros(m); % index array
ind = zeros(4);
popold = pop; % save the old population
ind = randperm(4); % index pointer array
a1 = randperm(m); % shuffle locations of vectors
rt = rem(rot+ind(1),m); % rotate indices by ind(1) positions
a2 = a1(rt+1); % rotate vector locations
rt = rem(rot+ind(2),m);
a3 = a2(rt+1);
rt = rem(rot+ind(3),m);
a4 = a3(rt+1);
rt = rem(rot+ind(4),m);
a5 = a4(rt+1);
pm1 = popold(:,a1); % shuffled population 1
pm2 = popold(:, a2); % shuffled population 2
pm3 = popold(:, a3); % shuffled population 3
pm4 = popold(:, a4); % shuffled population 4
pm5 = popold(:, a5); % shuffled population 5
for i=1:m % population filled with the best member
bm(:,i) = bestmemit; % of the last iteration
end
mui = rand(dim, m) < CR; % all random numbers < CR are 1, 0 otherwise
ui = pm3 + F*(pm1 - pm2); % differential variation
ui = popold.*mpo + (ui.*mui).^2; % crossover
%-----Select which vectors are allowed to enter the new population------------
for i=1:m
rxn_vector = ui(:,i);
rxnList = list(logical(rxn_vector));
nummutations = sum(rxn_vector);
if nummutations > MaxKnockOuts
continue;
end
[isValidRxn,removeInd] = ismember(rxnList,model.rxns);
removeInd = removeInd(isValidRxn);
modelKO = model;
modelKO.ub(removeInd) = 0;
modelKO.lb(removeInd) = 0;
FBAsolution = optimizeCbModel(modelKO);
growthrate3 = FBAsolution.f;
if growthrate3 < .10
continue;
end
modelFixGR = modelKO;
gamma = 0.9*growthrate;
new_gr = FBAsolution.f - gamma;
modelFixGR = changeRxnBounds(modelKO,modelKO.rxns(modelKO.c==1),new_gr,'l');
modelFixGR = changeObjective(modelFixGR,targetRxn);
solMin = optimizeCbModel(modelFixGR,'max');
minProd = solMin.f;
tempval(i) = -minProd * (.98^nummutations)* growthrate;
end
temp = tempval(1,:);
for i=1:temp
nfeval = nfeval + 1;
if (tempval(i) <= val(i)) % if competitor is better than value in "cost array"
pop(:, i) = ui(:,i); % replace old vector with new one (for new iteration)
val(i) = tempval(i); % save value in "cost array"
%----we update bestval only in case of success to save time-----------
if (min(tempval) < bestval) % if competitor better than the best one ever
bestval = min(tempval); % new best value
bestmem = ui(:,i); % new best parameter vector ever
end
end
end %---end for imember=1:NP
bestmemit = bestmem; % freeze the best member of this iteration for the coming
% iteration. This is needed for some of the strategies.
%----Output section----------------------------------------------------------
if (refresh > 0)
if (rem(iter,refresh) == 0)
% fprintf(1,'Iteration: %d, Best: %+5.2d, F: %f, CR: %f, NP: %d\n',iter,bestval,F,CR,m);
% for n=1:m
% fprintf(1,'best(%d) = %f\n',m,bestmem(m));
% end
end
end
if (val(1,m) < sortedFit(1,m))
bPosSort(:,m) = ui(:,m);
sortedFit(1,m) = val(1,m);
end
%%%end of Neighbourhood Search
%%%Shrink all the patches using the shrinking constant (sc) variable
nghx=nghx*((100-sc)/100);
%%%Send rest of the bees for random search...
%%%%%Number of bees for random search
ranSearchBees= n - m;
for(k= 1 : ranSearchBees)
perm= randperm(dim);
for e =1:MaxKnockOuts
bPosSortcand(perm(e),k)=1;
end
end
for(k= 1 : ranSearchBees)
rxn_vectorSortcand = bPosSortcand(:,k);
rxnListSortcand = list(logical(rxn_vectorSortcand));
nummutationsSortcand = sum(rxn_vectorSortcand);
if nummutationsSortcand > MaxKnockOuts
continue;
end
[isValidRxnSortcand,removeIndSortcand] = ismember(rxnListSortcand,model.rxns);
removeIndSortcand = removeIndSortcand(isValidRxnSortcand);
modelKOSortcand = model;
modelKOSortcand.ub(removeIndSortcand) = 0;
modelKOSortcand.lb(removeIndSortcand) = 0;
FBAsolutionSortcand = optimizeCbModel(modelKOSortcand);
growthrateSortcand = FBAsolutionSortcand.f;
if growthrateSortcand < .10
continue;
end
modelFixGRSortcand = modelKOSortcand;
gamma = 0.9*growthrate;
new_grSortcand = FBAsolutionSortcand.f - gamma;
modelFixGRSortcand = changeRxnBounds(modelKOSortcand,modelKOSortcand.rxns(modelKOSortcand.c==1),new_grSortcand,'l');
modelFixGRSortcand = changeObjective(modelFixGRSortcand,targetRxn);
solMinSortcand = optimizeCbModel(modelFixGRSortcand,'max');
minProdSortcand = solMinSortcand.f;
sortedFitcand(k) = -minProdSortcand * (.98^nummutations)* growthrate;
if (sortedFitcand(1,k) < sortedFit(1,k+m))
bPosSort(:,m+k) = bPosSortcand(:,k);
sortedFit(1,k+m) = sortedFitcand(1,k);
end
end
[fit sortedFit bPosSort]= funcSort(sortedFit, bPosSort, dim, n);
template(iter,:) = double(sortedFit(1,:));
sortedFit(1,1);
v(iter,:) = sortedFit(1,1);
end
minProdFixGR = sortedFit(1,1);
Scores = sortedFit;
BPCY = sortedFit(1,1);
t = bPosSort(:,1);
r=list(logical(t));
Best = t;
DBFBASol = GetDBFBASol(model, list, targetRxn,substrateRxn, bPos,Best, Scores,BPCY,rxnok);
sort_temp = sort(template);
Final_Result = v(1:iter,1);
plot(Final_Result)
title('Differential Bees Flux Balance Analysis')
xlabel('Generation Number')
ylabel('Objective Function')
saveas(gcf, '/Users/fahmiarieef/desktop/psm/references/info/result/Objective_Function', 'jpg')
[biomassValues,targetValues,lineHandle] = productionEnvelope(model,r,'k',targetRxn,model.rxns(model.c==1));
saveas(gcf, '/Users/fahmiarieef/desktop/psm/references/info/result/Production_Envelope', 'jpg')
End_Time = etime(clock,tstart)
end
can anyone tell me which part i did wrong?

Sign in to answer this question.

Answers (1)

Matt J
Matt J on 13 Dec 2015
Edited: Matt J on 13 Dec 2015
The problem is at the command line call, not inside DFBA()
>> DBFBA(model,3,Ex_Succ(e),Ex_glc(e),10)
Undefined function or variable 'e'.
The variable "e" does not exist.
  4 Comments
Show 2 older comments
Matt J
Matt J on 13 Dec 2015
Edited: Matt J on 13 Dec 2015
thank you for replying. but i already initialize variable e at the beginning.... e = MaxKOs
That's an excerpt from inside your function DBFBA, but you are also referring to "e" outside your function, at the command line.
>> DBFBA(model,3,Ex_Succ(e),Ex_glc(e),10)
The command line has its own workspace where "e" is something you haven't defined.
John D'Errico
John D'Errico on 13 Dec 2015
Before you call a function, NOTHING that is created inside the function exists at that point in time. So you are trying to use e as a variable, before e is ever defined.

Sign in to comment.

Categories

Find more on General Physics in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!