98 lines
4.1 KiB
Mathematica
98 lines
4.1 KiB
Mathematica
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function exponent_m = monomialreduction(exponent_m,exponent_p,options,csclasses,LPmodel)
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%MONOMIALREDUCTION Internal function for monomial reduction in SOS programs
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% Author Johan L<EFBFBD>fberg
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% $Id: monomialreduction.m,v 1.2 2006-09-26 14:28:43 joloef Exp $
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% **********************************************
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% TRIVIAL REDUCTIONS (stupid initial generation)
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% **********************************************
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mindegrees = min(exponent_p,[],1);
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maxdegrees = max(exponent_p,[],1);
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mindeg = min(sum(exponent_p,2));
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maxdeg = max(sum(exponent_p,2));
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if size(exponent_m{1},2)==0 % Stupid case : (sos(parametric))
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if options.verbose>0;disp('Initially 1 monomials in R^0');end
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else
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if options.verbose>0;disp(['Initially ' num2str(sum(cellfun('prodofsize',exponent_m)/size(exponent_m{1},2))) ' monomials in R^' num2str(size(exponent_p,2))]);end
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end
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for i = 1:length(csclasses)
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t = cputime;
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% THE CODE BELOW IS MESSY TO HANDLE SEVERAL BUGS IN MATLAB
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%too_large_term = any(exponent_m-repmat(maxdegrees/2,size(exponent_m,1),1)>0,2);% DOES NOT HANDLE ODD
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% POLYNIMIALS CORRECTLY
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a1 = full(ceil((1+maxdegrees)/2)); % 6.5.1 in linux freaks on sparse stuff...
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if isempty(a1)
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a1 = zeros(size(maxdegrees));
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end
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a2 = full(size(exponent_m{i},1));
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too_large_term = any(exponent_m{i}-repmat(a1,a2,1)>0,2);
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%too_small_term = any(exponent_m-repmat(mindegrees/2,size(exponent_m,1),1)<0,2);
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a1 = full(floor(mindegrees/2));
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if isempty(a1)
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a1 = zeros(size(mindegrees));
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end
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a2 = full(size(exponent_m{i},1));
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too_small_term = any(exponent_m{i}-repmat(a1,a2,1)<0,2);%x^2+xz
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%too_large_sum = any(sum(exponent_m,2)-maxdeg/2>0,2); % DOES NOT HANDLE ODD
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% POLYNIMIALS CORRECTLY
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too_large_sum = any(sum(exponent_m{i},2)-ceil((1+maxdeg)/2)>0,2);
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too_small_sum = any(sum(exponent_m{i},2)-mindeg/2<0,2);
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keep = setdiff1D((1:size(exponent_m{i},1)),find(too_large_term | too_small_term | too_large_sum | too_small_sum));
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exponent_m{i} = exponent_m{i}(keep,:);
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t = cputime-t;
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end
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if options.verbose>1;disp(['Removing large/small............Keeping ' num2str(sum(cellfun('prodofsize',exponent_m)/size(exponent_m{1},2))) ' monomials (' num2str(t) 'sec)']);end
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% ************************************************
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% Homogenuous?
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% ************************************************
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if all(sum(exponent_p,2)==sum(exponent_p(1,:)))
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for i = 1:length(csclasses)
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j = csclasses{i};
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t = cputime;
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exponent_m{i} = exponent_m{i}(sum(exponent_m{i},2)==sum(exponent_p(1,:))/2,:);
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t = cputime-t;
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end
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if options.verbose>1;disp(['Homogenuous form!...............Keeping ' num2str(sum(cellfun('prodofsize',exponent_m)/size(exponent_m{1},2))) ' monomials (' num2str(t) 'sec)']);end
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end
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% ************************************************
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% DIAGONAL CONSISTENCY : MONOMIAL ONLY IN
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% DIAGONAL, CONSTRAINED TO BE ZER0, CAN BE REMOVED
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% ************************************************
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if (options.sos.inconsistent==1) & ~options.sos.csp
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t = cputime;
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keep = consistent(exponent_m{1},exponent_p);
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exponent_m{1} = exponent_m{1}(keep,:);
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t = cputime-t;
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if options.verbose>0;disp(['Diagonal inconsistensies........Keeping ' num2str(size(exponent_m{1},1)) ' monomials (' num2str(t) 'sec)']);end
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end
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% ***********************************************************
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% NEWTON POLYTOPE CHECK
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% ***********************************************************
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if options.sos.newton
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t = cputime;
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[exponent_m,changed,no_lp_solved] = newtonreduce(exponent_m,exponent_p,options,LPmodel);
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t = cputime-t;
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if options.verbose>1 | (options.verbose>0 & 1+changed);
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info = ['Newton polytope (' num2str(no_lp_solved) ' LPs)'];
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info = [info repmat('.',1,32-length(info))];
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disp([info 'Keeping ' num2str(size(exponent_m{end},1)) ' monomials (' num2str(t) 'sec)']);
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end
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end
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if (options.sos.inconsistent==2) & ~options.sos.csp
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t = cputime;
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keep = consistent(exponent_m{1},exponent_p);
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exponent_m{1} = exponent_m{1}(keep,:);
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t = cputime-t;
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if options.verbose>1;disp(['Diagonal inconsistensies........Keeping ' num2str(size(exponent_m,1)) ' monomials (' num2str(t) 'sec)']);end
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end
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