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181 lines
6.1 KiB
Matlab
181 lines
6.1 KiB
Matlab
function [A,rows,cols,entries,rep,field,symm] = mmread(filename)
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%
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% function [A] = mmread(filename)
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%
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% function [A,rows,cols,entries,rep,field,symm] = mmread(filename)
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%
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% Reads the contents of the Matrix Market file 'filename'
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% into the matrix 'A'. 'A' will be either sparse or full,
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% depending on the Matrix Market format indicated by
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% 'coordinate' (coordinate sparse storage), or
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% 'array' (dense array storage). The data will be duplicated
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% as appropriate if symmetry is indicated in the header.
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%
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% Optionally, size information about the matrix can be
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% obtained by using the return values rows, cols, and
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% entries, where entries is the number of nonzero entries
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% in the final matrix. Type information can also be retrieved
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% using the optional return values rep (representation), field,
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% and symm (symmetry).
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%
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mmfile = fopen(filename,'r');
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if ( mmfile == -1 )
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disp(filename);
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error('File not found');
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end;
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header = fgets(mmfile);
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if (header == -1 )
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error('Empty file.')
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end
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% NOTE: If using a version of Matlab for which strtok is not
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% defined, substitute 'gettok' for 'strtok' in the
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% following lines, and download gettok.m from the
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% Matrix Market site.
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[head0, header] = strtok(header); % see note above
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[head1, header] = strtok(header);
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[rep, header] = strtok(header);
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[field, header] = strtok(header);
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[symm, header] = strtok(header);
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head1 = lower(head1);
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rep = lower(rep);
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field = lower(field);
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symm = lower(symm);
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if isempty(symm)
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disp(['Not enough words in header line of file ',filename])
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disp('Recognized format: ')
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disp('%%MatrixMarket matrix representation field symmetry')
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error('Check header line.')
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end
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if ~strcmp(head0,'%%MatrixMarket')
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error('Not a valid MatrixMarket header.')
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end
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if ~strcmp(head1,'matrix')
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disp(['This seems to be a MatrixMarket ',head1,' file.']);
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disp('This function only knows how to read MatrixMarket matrix files.');
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disp(' ');
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error(' ');
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end
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% Read through comments, ignoring them
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commentline = fgets(mmfile);
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while ~isempty(commentline) && commentline(1) == '%',
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commentline = fgets(mmfile);
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end
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% Read size information, then branch according to
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% sparse or dense format
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switch rep,
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case 'coordinate', % read matrix given in sparse coordinate format
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[sizeinfo,count] = sscanf(commentline, '%d%d%d');
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while count == 0,
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commentline = fgets(mmfile);
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if commentline == -1,
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error('End-of-file reached before size information was found.')
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end
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[sizeinfo,count] = sscanf(commentline, '%d%d%d');
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if count > 0 && count ~= 3,
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error('Invalid size specification line.')
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end
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end
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rows = sizeinfo(1);
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cols = sizeinfo(2);
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entries = sizeinfo(3);
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T = fscanf(mmfile, '%f');
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switch field,
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case 'real', % real valued entries:
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check_size(T, 3 * entries);
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T = reshape(T(:), 3, entries)';
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A = sparse(T(:,1), T(:,2), T(:,3), rows , cols);
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case 'complex', % complex valued entries:
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check_size(T, 4 * entries);
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T = reshape(T(:), 4, entries)';
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A = sparse(T(:,1), T(:,2), T(:,3) + T(:,4)*1i, rows , cols);
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case 'pattern', % pattern matrix (no values given):
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check_size(T, 2 * entries);
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T = reshape(T(:), 2, entries)';
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A = sparse(T(:,1), T(:,2), ones(entries, 1), rows , cols);
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end
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case 'array', % read matrix given in dense array (column major) format
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[sizeinfo, count] = sscanf(commentline, '%d%d');
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while count == 0
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commentline = fgets(mmfile);
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if commentline == -1
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error('End-of-file reached before size information was found.')
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end
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[sizeinfo, count] = sscanf(commentline, '%d%d');
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if count > 0 && count ~= 2
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error('Invalid size specification line.')
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end
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end
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rows = sizeinfo(1);
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cols = sizeinfo(2);
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entries = rows*cols;
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A = fscanf(mmfile, '%f');
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switch field,
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case 'real', % real valued entries:
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% do nothing
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case 'complex', % complex valued entries:
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A = A(1:2:end-1) + 1i * A(2:2:end);
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case 'pattern', % pattern (makes no sense for dense)
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disp('Matrix type:',field)
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error('Pattern matrix type invalid for array storage format.');
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otherwise,
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disp('Matrix type:',field)
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error('Invalid matrix type specification. Check header against MM documentation.');
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end
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if any(strcmp(symm,{'symmetric','hermitian','skew-symmetric'}))
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for j=1:cols-1,
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currenti = j*rows;
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A = [A(1:currenti);
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zeros(j,1);
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A(currenti+1:length(A))];
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end
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elseif ~strcmp(symm,'general'),
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disp('Unrecognized symmetry')
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disp(symm)
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disp('Recognized choices:')
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disp(' symmetric')
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disp(' hermitian')
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disp(' skew-symmetric')
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disp(' general')
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error('Check symmetry specification in header.');
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end
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A = reshape(A,rows,cols);
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end
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fclose(mmfile);
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%
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% If symmetric, skew-symmetric or Hermitian, duplicate lower
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% triangular part and modify entries as appropriate:
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%
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switch symm,
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case 'symmetric',
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A = A + A.' - diag(diag(A));
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entries = nnz(A);
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case 'hermitian',
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A = A + A' - diag(diag(A));
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entries = nnz(A);
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case 'skew-symmetric',
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A = A - A.';
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entries = nnz(A);
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end
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% Done.
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end
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function check_size(T, n)
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if size(T) ~= n
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disp('Data file does not contain expected amount of data.');
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disp('Check that number of data lines matches nonzero count.');
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error('Invalid data.');
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end
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end |