Mercurial > hg > ltpda
view m-toolbox/classes/+utils/@xml/xmlwrite.m @ 31:a26669b59d7e database-connection-manager
Update LTPDAworkbench
author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Mon, 05 Dec 2011 16:20:06 +0100 |
parents | f0afece42f48 |
children |
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% XMLWRITE Add an object to a xml DOM project. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: XMLWRITE Add an object to a xml DOM project. % % EXAMPLE: xml = com.mathworks.xml.XMLUtils.createDocument('ltpda_object'); % parent = xml.getDocumentElement; % % xmlwrite(a, xml, parent, ''); % % xmlwrite('foo.xml', xml); % % FORMAT: This function writes the object into the following xml format: % % ---------------------- ltpda_object ---------------------- % % <ltpda_object> % % --> <object> ... % --> <cell> ... % % </ltpda_object> % % ------------------------- object ------------------------- % % <object> ('type' - attribute) % % <property> ... % % </object> % % ------------------------ property ------------------------ % -------------------------- cell -------------------------- % % <property> ('type', 'prop_name' -attributes) % OR <cell> ('type' -attribute) % % --> atomic element % - empty cell % - empty double % - empty char % - char % - double % - logical % - java (necessary for timezone) % --> <cell> ... % --> <object> ... % --> <real_data> ... % <imag_data> ... % % </property> % OR </cell> % % ------- real_data --------|-------- imag_data -------- % | % <real_data>('type'-attribute) | <imag_data> ('type' -attribute) % ('shape'-attribute)| ('shape'-attribute) % | % --> <matrix> ... | --> <matrix> ... % --> <vector> ... | --> <vector> ... % | % </real_data> | </imag_data> % | % --------- matrix -------------------- vector --------- % | % <matrix> ('type' -attribute) | <vector> ('type' -attribute) % | % row vector (double) | column vector (double) % | % </matrix> | </vector> % % SYMBOLS: --> Marks a choice between alternatives. % ... Indicate that an element may be repeated. % % VERSION: $Id: xmlwrite.m,v 1.7 2011/03/28 17:04:27 ingo Exp $ % % HISTORY: 31-01-2008 Diepholz % Creation % % SEE ALSO: utils.xml.xmlread % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function varargout = xmlwrite(objs, xml, parent, property_name) %%%%%% Workaround for saving as the new XML format %%%%%% ltpda_version = getappdata(0, 'ltpda_version'); if (utils.helper.ver2num(ltpda_version) > utils.helper.ver2num('2.3')) || ... (strcmp(strtok(ltpda_version), '2.3')) %%%%%%%%%%%%%%%%%% reading of a new XML file %%%%%%%%%%%%%%%%%% % Create history root node % The attachToDom methods will attach their histories to this node. historyRootNode = xml.createElement('historyRoot'); parent.appendChild(historyRootNode); % Write objects collectedHist = objs.attachToDom(xml, parent, []); return end %%%%%% If the property_name is filled then create a new property node %%%%% if ~isempty(property_name) shape = sprintf('%dx%d', size(objs,1), size(objs,2)); prop_node = xml.createElement('property'); prop_node.setAttribute('prop_name', property_name); prop_node.setAttribute('shape', shape); prop_node.setAttribute('type', class(objs)); parent.appendChild(prop_node); parent = prop_node; end %%%%%%%%%%%%%%%% The object is a class object or a struct %%%%%%%%%%%%%%%%% if (isobject(objs) || isstruct(objs)) && ~isa(objs, 'sym') if isa(objs, 'ltpda_obj') %%%%% Skip empty fields for unser objects %%%%% for ii = 1:numel(objs) obj = objs(ii); shape = sprintf('%dx%d', size(objs,1), size(objs,2)); obj_node = xml.createElement('object'); obj_node.setAttribute('type', class(obj)); obj_node.setAttribute('shape', shape); parent.appendChild(obj_node); if isa(obj, 'minfo') % we don't write all fields info = obj.getEncodedString; obj_node.setAttribute('info', info); elseif isa(obj, 'provenance') % write info info = obj.getEncodedString; obj_node.setAttribute('info', info); elseif isa(obj, 'param') obj_node.setAttribute('key', obj.key'); val = obj.getDefaultVal; utils.xml.xmlwrite(val, xml, obj_node, 'value'); elseif isa(obj, 'time') % write utc_epoch_milli obj_node.setAttribute('utc', num2str(obj.utc_epoch_milli)); % write timezone obj_node.setAttribute('timezone', char(obj.timezone.getID)); % write timeformat obj_node.setAttribute('timeformat', obj.timeformat); else fields = getFieldnames(obj); for jj = 1:length(fields) if ~isempty(obj.(fields{jj})) || any(size(obj.(fields{jj}))) % handle some fields as attributes if strcmp(fields{jj}, 'name') obj_node.setAttribute('name', obj.name); elseif strcmp(fields{jj}, 'description') obj_node.setAttribute('description', obj.description); elseif strcmp(fields{jj}, 'UUID') obj_node.setAttribute('UUID', obj.UUID); elseif strcmp(fields{jj}, 'created') obj_node.setAttribute('created', num2str(obj.created)); elseif strcmp(fields{jj}, 'proctime') obj_node.setAttribute('proctime', num2str(obj.proctime)); else utils.xml.xmlwrite(obj.(fields{jj}), xml, obj_node, fields{jj}); end end end end end else %%%%% Don't skip empty fields for structures and other %%%%% for ii = 1:numel(objs) obj = objs(ii); shape = sprintf('%dx%d', size(objs,1), size(objs,2)); obj_node = xml.createElement('object'); obj_node.setAttribute('type', class(obj)); obj_node.setAttribute('shape', shape); parent.appendChild(obj_node); fields = fieldnames(obj); for jj = 1:length(fields) utils.xml.xmlwrite(obj.(fields{jj}), xml, obj_node, fields{jj}); end end end %%%%%%%%%%%%%%%%%%%%%%% The object is a java object %%%%%%%%%%%%%%%%%%%%%%% elseif isjava(objs) if strcmp(class(objs), 'sun.util.calendar.ZoneInfo') content = xml.createTextNode(char(objs.getID)); parent.appendChild(content); else error('### Unknown Java'); end %%%%%%%%%%%%%%%%%%%%%%% The object is a cell object %%%%%%%%%%%%%%%%%%%%%%% elseif iscell(objs) for ii = 1:numel(objs) obj = objs{ii}; shape = sprintf('%dx%d', size(obj,1), size(obj,2)); cell_node = xml.createElement('cell'); cell_node.setAttribute('type', class(obj)); cell_node.setAttribute('prop_name', property_name); cell_node.setAttribute('shape', shape); parent.appendChild(cell_node); utils.xml.xmlwrite(obj, xml, cell_node, ''); end %%%%%%%%%%%%%%%%%%%% The object is a character string %%%%%%%%%%%%%%%%%%%%% elseif ischar(objs) % We mask the line break '\n' with a new identifier because we got % problems with saving into the database. objs_txt = objs; objs_txt = strrep(objs_txt, '\n', '<NEW_LINE>'); % Replace the first and last DOLLAR $ of an version string with CVS_TAG if ~isempty(objs_txt) && (objs_txt(1) == '$') && (objs_txt(end) == '$') && (strcmp(property_name, 'version') || strcmp(property_name, 'mversion')) objs_txt = strrep(objs_txt, '$', 'CVS_TAG'); % objs_txt = ['CVS_TAG', objs_txt(2:end-1), 'CVS_TAG']; end % Set the shape of the node again because it is possible that we % replaced '\n' with '<NEW_LINE>'. parent.setAttribute('shape', sprintf('%dx%d', size(objs_txt,1), size(objs_txt,2))); objs_txt = reshape(objs_txt, 1, []); content = xml.createTextNode(objs_txt); parent.appendChild(content); %%%%%%%%%%%%%%%%%%%%%%%%% The object is a logical %%%%%%%%%%%%%%%%%%%%%%%%% elseif islogical(objs) content = xml.createTextNode(mat2str(objs)); parent.appendChild(content); %%%%%%%%%%%%%%%%%%%%%%%%% The object is a number %%%%%%%%%%%%%%%%%%%%%%%%%% elseif isnumeric(objs) || isa(objs, 'sym') %%%%% objs is a singel value %%%%% if (size(objs,1) == 1) && (size(objs,2) == 1) || size(objs,1) == 0 || size(objs,2) == 0 if strcmp(class(objs), 'sym') number_str = char(objs, 20); else if isreal(objs) number_str = sprintf('%.17g', objs); else number_str = num2str(objs, 20); end end content = xml.createTextNode(number_str); parent.appendChild(content); %%%%% objs is a matrix %%%%% elseif (size(objs,1) > 1) && (size(objs,2) > 1) xml_addmatrix(objs, xml, parent); %%%%% objs is a vector %%%%% elseif (size(objs,1) > 1) || (size(objs,2) > 1) xml_addvector(objs, xml, parent); end else error('### unknown type [%s]', class(objs)); end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: XML_ADDVECTOR Add a vector element to the xml node. The element % have the form: % % REAL DATA: <real_data type="vector"> % <vector type="double"> 1 2 3 4 5 6 7 8 9 10</vector> % <vector type="double">11 12 13 14 15 16 17 18 19 20</vector> % </real_data> % % COMPLEX DATA:<real_data type="vector"> % <vector type="double"> 1 2 3 4 5 6 7 8 9 10</vector> % <vector type="double">11 12 13 14 15 16 17 18 19 20</vector> % </real_data> % % <imag_data type="vector"> % <vector type="double"> 1 2 3 4 5 6 7 8 9 10</vector> % <vector type="double">11 12 13 14 15 16 17 18 19 20</vector> % </imag_data> % % The vector objs will be split into several parts dependent from % the maximum size in one vector element. % Each part creates its own vectror element. % % HISTORY: 31-01-2008 Diepholz % Creation % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function xml_addvector(objs, xml, parent) n_min = 50000; header_displayed = true; shape = sprintf('%dx%d', size(objs,1), size(objs,2)); %%%%% Real data %%%%% node_real = xml.createElement('real_data'); node_real.setAttribute('type', 'vector'); node_real.setAttribute('shape', shape); %%% Set the parent attribute 'type' to vector parent.setAttribute('type', 'vector'); parent.appendChild(node_real); idx = 1; Ndata = length(objs); n = min(n_min, Ndata); while idx-1 <= Ndata header_displayed = TerminalOutput(parent, header_displayed, true, 'vector', idx+n-1); if isa(objs, 'sym') number_str = strtrim(char(objs(idx:min(Ndata,idx+n-1)))); else number_str = strtrim(utils.helper.num2str(real(objs(idx:min(Ndata,idx+n-1))))); end if ~isempty(number_str) item = xml.createElement('vector'); item.setAttribute('type', class(objs)); content = xml.createTextNode(number_str); node_real.appendChild(item); item.appendChild(content); end idx = idx + n; end %%%%% Imaginary data %%%%% if ~isreal(objs) && ~isa(objs, 'sym') header_displayed = true; node_imag = xml.createElement('imag_data'); node_imag.setAttribute('type', 'vector') node_imag.setAttribute('shape', shape); parent.appendChild(node_imag); idx = 1; while idx-1 <= Ndata header_displayed = TerminalOutput(parent, header_displayed, false, 'vector', idx+n-1); number_str = strtrim(utils.helper.num2str(imag(objs(idx:min(Ndata,idx+n-1))))); if ~isempty(number_str) item = xml.createElement('vector'); item.setAttribute('type', class(objs)); content = xml.createTextNode(number_str); node_imag.appendChild(item); item.appendChild(content); end idx = idx + n; end end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: XML_ADDMATRIX Add a matrix element to the xml node. The element % have the form: % % REAL DATA: <real_data type="matrix"> % <matrix type="double">1 2 3</matrix> % <matrix type="double">4 5 6</matrix> % <matrix type="double">7 8 9</matrix> % </real_data> % % COMPLEX DATA:<real_data type="matrix"> % <matrix type="double">1 2 3</matrix> % <matrix type="double">4 5 6</matrix> % <matrix type="double">7 8 9</matrix> % </real_data> % % <imag_data type="matrix"> % <matrix type="double">9 8 7</matrix> % <matrix type="double">6 5 4</matrix> % <matrix type="double">3 2 1</matrix> % </imag_data> % % Each row in objs creates a matrix element. % % HISTORY: 31-01-2008 Diepholz % Creation % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function xml_addmatrix(objs, xml, parent) shape = sprintf('%dx%d', size(objs,1), size(objs,2)); header_displayed = true; %%% Get the property name only for displaying the property name %%%%% Real data %%%%% node_real = xml.createElement('real_data'); node_real.setAttribute('type', 'matrix'); node_real.setAttribute('shape', shape); %%% Set the parent attribute 'type' to matrix parent.setAttribute('type', 'matrix'); parent.appendChild(node_real); for ii = 1:size(objs,1) if strcmp(class(objs), 'sym') number_str = strtrim(char(objs(ii,:))); else number_str = strtrim(utils.helper.num2str(real(objs(ii,:)))); end if ~isempty(number_str) item = xml.createElement('matrix'); item.setAttribute('type', class(objs)); content = xml.createTextNode(number_str); node_real.appendChild(item); item.appendChild(content); end end TerminalOutput(parent, header_displayed, true, 'matrix', ii); %%%%% Imaginary data %%%%% if ~isreal(objs) && ~isa(objs, 'sym') node_imag = xml.createElement('imag_data'); node_imag.setAttribute('type', 'matrix'); node_imag.setAttribute('shape', shape); parent.appendChild(node_imag); for ii = 1:size(objs,1) number_str = strtrim(utils.helper.num2str(imag(objs(ii,:)))); if ~isempty(number_str) item = xml.createElement('matrix'); item.setAttribute('type', class(objs)); content = xml.createTextNode(number_str); node_imag.appendChild(item); item.appendChild(content); end end TerminalOutput(parent, header_displayed, false, 'matrix', ii); end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % DESCRIPTION: Displays the terminal output. % % HISTORY: 31-01-2008 Diepholz % Creation % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function header_displayed = TerminalOutput(parent, header_displayed, isreal_num, obj_type, number) import utils.const.* THRESHOLD_DISP_MATRIX = 10; THRESHOLD_DISP_VECTOR = 1000; showing = false; if strcmp(obj_type, 'matrix') if number >= THRESHOLD_DISP_MATRIX showing = true; end add_text = 'matrix lines'; else if number >= THRESHOLD_DISP_VECTOR showing = true; end add_text = 'data samples'; end if showing if header_displayed if parent.hasAttribute('prop_name') disp_prop_name = char(parent.getAttribute('prop_name')); else disp_prop_name = 'Unknown Property Name'; end utils.helper.msg(msg.PROC2, 'Writing property: %s', disp_prop_name); if isreal_num utils.helper.msg(msg.PROC2, 'Writing real data'); else utils.helper.msg(msg.PROC2, 'Writing imag data'); end header_displayed = false; end utils.helper.msg(msg.PROC3, 'Writing %d %s', number, add_text); end end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % FUNCTION: getFieldnames % % DESCRIPTION: Retruns the field names which should be storred in a XML file. % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function fields = getFieldnames(obj) meta = eval(['?' class(obj)]); metaProp = [meta.Properties{:}]; props = {metaProp(:).Name}; propGetAccess = strcmpi({metaProp(:).GetAccess}, 'public'); propDependent = [metaProp(:).Dependent]; fields = props(propGetAccess & ~propDependent); end