package org.autoplot.dom; import java.awt.Color; import java.awt.Font; import java.beans.IndexedPropertyDescriptor; import java.beans.IntrospectionException; import java.beans.PropertyDescriptor; import java.beans.PropertyEditor; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.lang.reflect.Array; import java.lang.reflect.InvocationTargetException; import java.lang.reflect.Method; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.logging.Level; import java.util.logging.Logger; import java.util.regex.Matcher; import java.util.regex.Pattern; import org.das2.beans.BeansUtil; import org.das2.datum.Datum; import org.das2.datum.DatumRange; import org.das2.datum.DatumUtil; import org.das2.datum.TimeUtil; import org.das2.datum.Units; import org.das2.datum.UnitsUtil; import org.das2.util.LoggerManager; import org.jdesktop.beansbinding.Converter; import org.autoplot.dom.ChangesSupport.DomLock; import org.autoplot.state.StatePersistence; import org.das2.components.propertyeditor.Displayable; import org.das2.qds.QDataSet; import org.das2.util.ColorUtil; /** * operations for the DOM, such as search-for-node and child properties * @author jbf */ public class DomUtil { private static final Logger logger= LoggerManager.getLogger( "autoplot.dom.util"); /** * trim the string on the left, leaving the right visible. * @param s the string * @param len the number of characters * @return "..."+s.substring(s.length() - len) */ public static String abbreviateRight(String s, int len) { if (s == null) return ""; if (s.length() > len) { s = "..." + s.substring(s.length() - len); } return s; } static List childProperties(List exclude, String string) { ArrayList result = new ArrayList<>(); int n = string.length() + 1; for (String e : exclude) { if (e.startsWith(string + ".")) { result.add(e.substring(n)); } } return result; } /** * return a list of nodes (plotElements and dataSourceFilters) that use the * DataSourceFilter. * @param app the dom * @param id the node identifier * @return */ static List dataSourceUsages(Application app, String id) { List result = new ArrayList<>(); for (PlotElement p : app.getPlotElements()) { if (p.getDataSourceFilterId().equals(id)) { result.add(p); } } for (DataSourceFilter dsf : app.getDataSourceFilters()) { if ( dsf.getUri().startsWith("vap+internal:") ) { String[] ss= dsf.getUri().substring(13).split(",",-2); for ( String s: ss ) { if ( s.equals(id) && !result.contains(dsf) ) { result.add(dsf); } } } } return result; } /** * move the plot element within the dom below the plot element. * @param dom the dom (with no controllers) * @param referenceId the plot element which is the reference * @param pId the plot element to move */ public static void moveToJustBelow( Application dom, String referenceId, String pId ) { PlotElement reference= (PlotElement) getElementById( dom, referenceId ); PlotElement p= (PlotElement) getElementById( dom, pId ); if ( reference==p ) throw new IllegalArgumentException("reference and p are the same plot element"); if ( !reference.getPlotId().equals(p.getPlotId()) ) throw new IllegalArgumentException("reference and p must be in the same plot"); List newPes= new ArrayList( Arrays.asList(dom.getPlotElements()) ); // find the topmost element of plot. int top; for ( top=newPes.size()-1; top>=0; top-- ) { if ( newPes.get(top)==reference ) break; } int ploc; for ( ploc=0; ploc newPes= new ArrayList( Arrays.asList(dom.getPlotElements()) ); // find the topmost element of plot. int top; for ( top=newPes.size()-1; top>=0; top-- ) { if ( newPes.get(top)==reference ) break; } int ploc; for ( ploc=0; ploc
{@code
     *    timeRange
     *    plots[0].range
     *}
* * @param node the node containing the property * @param propertyName the value, (or the old value if we were setting it.) * @param getClass return the property class type instead of the value. * @throws IllegalArgumentException if the property cannot be found * @return propertyDescriptor or null. */ private static Object setGetPropertyInternal( DomNode node, String propertyName, boolean setit, boolean getClass, Object value ) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException { String[] props= propertyName.split("\\.",-2); int iprop=0; Pattern indexedPattern= Pattern.compile("([a-zA-Z_]+)\\[(\\d+)\\]"); Object thisNode= node; while ( iprop< props.length ) { String prop1= props[iprop]; Matcher m= indexedPattern.matcher(prop1); PropertyDescriptor[] pds= BeansUtil.getPropertyDescriptors(thisNode.getClass()); if ( m.matches() ) { String name= m.group(1); int idx= Integer.parseInt(m.group(2)); for (PropertyDescriptor pd : pds) { if (pd.getName().equals(name)) { Object thisValue = ((IndexedPropertyDescriptor) pd).getIndexedReadMethod().invoke(thisNode, idx); if (iprop==props.length-1) { if (setit) { ((IndexedPropertyDescriptor) pd).getIndexedWriteMethod().invoke(thisNode, idx, value); } else if (getClass) { return ((IndexedPropertyDescriptor) pd).getPropertyType(); } else { return thisValue; } } thisNode= thisValue; break; } } } else { String name= prop1; for (PropertyDescriptor pd : pds) { if (pd.getName().equals(name)) { Object thisValue = (pd).getReadMethod().invoke(thisNode); if (iprop==props.length-1) { if (setit) { (pd).getWriteMethod().invoke(thisNode, value); } else if (getClass) { return (pd).getPropertyType(); } else { return thisValue; } } thisNode= thisValue; break; } } } iprop++; } if ( !setit ) throw new IllegalArgumentException( "unable to find property \""+propertyName+"\" in "+node ); return null; } /** * get the node property value * @param node the dom node * @param propertyName the property name * @return the node property value * @throws IllegalAccessException * @throws IllegalArgumentException * @throws InvocationTargetException */ public static Object getPropertyValue(DomNode node, String propertyName) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException { return setGetPropertyInternal( node, propertyName, false,false, null ); } /** * set the property value * @param node the dom node * @param propertyName the property name * @param val the new value * @throws IllegalAccessException * @throws IllegalArgumentException * @throws InvocationTargetException */ public static void setPropertyValue(DomNode node, String propertyName, Object val ) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException { setGetPropertyInternal( node, propertyName, true,false, val ); } /** * get the property type, e.g. Datum.class or [Lorg.virbo.autoplot.dom.Canvas (array of Canvases.) * @param node the dom node * @param propertyName the property name * @return the property type * @throws IllegalAccessException * @throws IllegalArgumentException * @throws InvocationTargetException */ public static Class getPropertyType( DomNode node, String propertyName ) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException { return (Class)setGetPropertyInternal( node, propertyName, false, true, null ); } /** * return the list of nodes (Plots or Annotations) that use this row. * @param dom * @param rowId the row id. * @return list of nodes */ static List rowUsages(Application dom, String rowId) { List result = new ArrayList<>(); for (Plot p : dom.getPlots()) { if (p.getRowId().equals(rowId)) { result.add(p); } } for (Annotation a : dom.getAnnotations()) { if (a.getRowId().equals(rowId)) { result.add(a); } } return result; } /** * return the list of nodes (Plots or Annotations) that use this column. * @param dom * @param columnId the column id. * @return list of nodes */ static List columnUsages(Application dom, String columnId) { List result = new ArrayList<>(); for (Plot p : dom.getPlots()) { if (p.getColumnId().equals(columnId)) { result.add(p); } } for (Annotation a : dom.getAnnotations()) { if (a.getColumnId().equals(columnId)) { result.add(a); } } return result; } private static DatumRange round(DatumRange range) { Datum w = range.width(); Datum w0 = DatumUtil.asOrderOneUnits(w); Datum base; Units hu = w0.getUnits(); if (range.getUnits().isConvertibleTo(Units.us2000)) { base = TimeUtil.prevMidnight(range.min()); } else { base = w.getUnits().createDatum(0); } double min10 = Math.round((range.min().subtract(base)).doubleValue(w0.getUnits())); double max10 = Math.round((range.max().subtract(base)).doubleValue(w0.getUnits())); return new DatumRange(base.add(Datum.create(min10, hu)), base.add(Datum.create(max10, hu))); } /** * describe the change in axis range. These include:
    *
  • zoom in, zoom out - one range completely contains the other. *
  • pan - the range is adjusted but partially overlaps *
  • scan - the range is adjusted so that the two do not intersect. *
* @param init the initial range * @param fin the final range * @return the human consumable string, e.g. "zoom out" */ public static String describe(DatumRange init, DatumRange fin) { if (init.getUnits().isConvertibleTo(fin.getUnits())) { String scaleString = ""; if (UnitsUtil.isTimeLocation(fin.getUnits())) { Datum scale = DatumUtil.asOrderOneUnits(round(fin).width()); scaleString = " to " + scale; } if (init.contains(fin)) { return "zoom in" + scaleString; } else if (fin.contains(init)) { return "zoom out" + scaleString; } else if (init.intersects(fin)) { return "pan"; //+ ( init.min().lt(fin.min() ) ? "right" : "left" ); duh--need to know axis orientation } else { return "scan"; // + ( init.min().lt(fin.min() ) ? "right" : "left" ); } } else { return "" + round(init) + " \u2192 " + round(fin); } } // This was abondoned because it's too difficult to do automatically. // /** // * attempt to parse the diff formatted to the string. Some example diffs: // * 'delete row_5 from Canvases[0].rows @ 2;' // * 'Canvases[0].marginColumn.left +8.0em \u2192 +7.0em' // * 'plots[0].xaxis.range 2017-09-07 23:00 to 2017-09-09 00:00 \u2192 0.0 to 100.0 ;' // * This is a bit of an exercise to see if all the needed information is available. // * @param s // * @param dom // * @return appropriate diff object // */ // public static Diff parseDiff( String s, Application dom ) { // Pattern p1= Pattern.compile("(insert|delete) (.+) (from|into) (.+) @ (\\d+)"); // Matcher m1= p1.matcher(s); // if ( m1.matches() ) { // if ( m1.group(1).equals("delete") ) { // return new ArrayNodeDiff( m1.group(3), ArrayNodeDiff.Action.Delete, dom, Integer.parseInt(m1.group(4)) ); // } else { // return new ArrayNodeDiff( m1.group(3), ArrayNodeDiff.Action.Insert, dom, Integer.parseInt(m1.group(4)) ); // } // } else { // Pattern p2= Pattern.compile("((.+)\\.([a-zA-Z]+)) (.+) \u2192 (.+)"); // Matcher m2= p2.matcher(s); // if ( m2.matches() ) { // String sparent= m2.group(2); // DomNode parent= getElementByAddress( dom, sparent ); // try { // Class c= getPropertyType( parent, m2.group(3) ); // Object old= c. // //Object parent= // //return new PropertyChangeDiff( m2.group(2), Object oldVal, Object newVal) // } catch (IllegalAccessException ex) { // Logger.getLogger(DomUtil.class.getName()).log(Level.SEVERE, null, ex); // } catch (IllegalArgumentException ex) { // Logger.getLogger(DomUtil.class.getName()).log(Level.SEVERE, null, ex); // } catch (InvocationTargetException ex) { // Logger.getLogger(DomUtil.class.getName()).log(Level.SEVERE, null, ex); // } // } // } // return null; // } public static Object parseObject(Object context, String s) { PropertyEditor edit = BeansUtil.findEditor(context.getClass()); if (edit == null) { return context; } edit.setValue(context); edit.setAsText(s); Object result = edit.getValue(); return result; } public static String formatObject(Object obj) { PropertyEditor edit = BeansUtil.findEditor(obj.getClass()); if (edit == null) { return ""; } edit.setValue(obj); String result = edit.getAsText(); return result; } /** * return the node with this id, or null if the id is not found. * @param root the root, such as the dom or the canvas. * @param id the id of the node. * @return the node with this id, or null if the id is not found. * @see #getElementByAddress(org.autoplot.dom.DomNode, java.lang.String) */ public static DomNode getElementById(DomNode root, String id) { if (id == null ) { throw new IllegalArgumentException("id cannot be null"); } if ( id.equals("") ) { throw new IllegalArgumentException("id cannot be zero-length string"); } if (root.getId().equals(id)) return root; for (DomNode n : root.childNodes()) { if (n.getId().equals(id)) { return n; } else { DomNode nn = getElementById(n, id); if (nn != null) return nn; } } return null; } /** * return the node at the address, for example "plots[2].xaxis" of an application. * @param domNode the initial dom node, like dom. * @param address the address, like plots[2].xaxis * @return the domNode at the address. * @see #getElementById(org.autoplot.dom.DomNode, java.lang.String) y */ public static DomNode getElementByAddress( DomNode domNode, String address ) { String[] ss= address.split("\\."); for ( String s: ss ) { try { int index; Pattern p= Pattern.compile("([a-zA-Z]+)(\\[(\\d+)\\])?"); Matcher m= p.matcher(s); if ( m.matches() ) { if ( m.group(2)!=null ) { index= Integer.parseInt(m.group(3)); } else { index= -1; } } else { throw new IllegalArgumentException("regex doesn't match"); } String prop= m.group(1); Class c = domNode.getClass(); Object o; if ( index>-1 ) { IndexedPropertyDescriptor pd = new IndexedPropertyDescriptor(prop, c); Method getter = pd.getIndexedReadMethod(); o= getter.invoke( domNode, index ); } else { PropertyDescriptor pd = new PropertyDescriptor(prop, c); Method getter = pd.getReadMethod(); o= getter.invoke( domNode ); } if ( !( o instanceof DomNode ) ) { throw new IllegalArgumentException("address is not that of a node (is it a property?)"); } domNode= (DomNode)o; } catch (IllegalAccessException | IllegalArgumentException | InvocationTargetException | IntrospectionException ex) { throw new IllegalArgumentException(ex); } } return domNode; } /** * return null or the plot using the axis. * @param app the application * @param oa the axis * @return null or the plot using the axis */ public static Plot getPlotForAxis( Application app, Axis oa ) { for ( Plot p: app.getPlots() ) { if ( p.getXaxis()==oa ) { return p; } else if ( p.getYaxis()==oa ) { return p; } else if ( p.getZaxis()==oa ) { return p; } } return null; } /** * find the nodes matching this regex. * @param root the node to start at. * @param regex the regular expression. * @return the nodes. */ public static List findElementsById( DomNode root, String regex ) { if (regex == null || regex.equals("")) { throw new IllegalArgumentException("id cannot be null or zero-length string"); } Pattern p= Pattern.compile(regex); List result= new ArrayList(); if ( p.matcher(root.getId()).matches() ) result.add(root); for (DomNode n : root.childNodes()) { if ( p.matcher(n.getId()).matches() ) { result.add( n ); } result.addAll( findElementsById( n, regex ) ); } return result; } /** * Just like Arrays.toList, but copies into ArrayList so elements may be inserted. * @param * @param a * @return ArrayList that can have elements inserted */ public static ArrayList asArrayList(T... a) { return new ArrayList<>(Arrays.asList(a)); } /** * return the child diff in the context of the parent node. May return * null if the diff cannot be described. * @param childName * @param diff * @return */ public static Diff childDiff(String childName, Diff diff) { if (diff instanceof PropertyChangeDiff) { PropertyChangeDiff pcd = (PropertyChangeDiff) diff; return new PropertyChangeDiff(childName + "." + pcd.propertyName, pcd.oldVal, pcd.newVal); } else if (diff instanceof ArrayNodeDiff) { ArrayNodeDiff d = (ArrayNodeDiff) diff; return new ArrayNodeDiff(childName + "." + d.propertyName, d.action, d.node, d.index, d.toIndex); } else { return null; } } /** * return the child diff in the context of the parent node. May return * null if the diff cannot be described. * @param childName * @param diffs * @return */ public static List childDiffs(String childName, List diffs) { ArrayList result = new ArrayList<>(); for (Diff diff : diffs) { Diff r1 = childDiff(childName, diff); if (r1 != null) result.add(r1); } return result; } /** * returns the index by ID, not by equals. Equals cannot be * overriden, because property change diffs, etc. * @param nodes list of nodes * @param node the node to search for * @return the index or -1. */ public static int indexOf(List nodes, Object node) { boolean isDomNode = node instanceof DomNode; if (!isDomNode) { return nodes.indexOf(node); } else { for (int i = 0; i < nodes.size(); i++) { DomNode n1 = (DomNode) nodes.get(i); if (n1 == node) return i; String id = n1.getId(); if (!id.equals("") && id.equals(((DomNode) node).id)) { return i; } } } return -1; } /** * delete the data source filter. * @param application * @param dsf the data source filter to remove. * @see org.autoplot.dom.ApplicationController#deleteDataSourceFilter(org.autoplot.dom.DataSourceFilter) */ public static void deleteDataSourceFilter( Application application, DataSourceFilter dsf ) { if (!application.dataSourceFilters.contains(dsf)) { logger.fine("dsf wasn't part of the application"); return; } if (application.dataSourceFilters.size() < 2) { throw new IllegalArgumentException("last plot cannot be deleted"); } List plotElements = dataSourceUsages( application, dsf.id ); if (plotElements.size() > 0) { throw new IllegalArgumentException("application plot elements use dsf"); } for ( DataSourceFilter dsf1: application.getDataSourceFilters() ) { String uri= dsf1.getUri(); if ( uri.startsWith("vap+internal:") ) { if ( uri.contains(dsf.id) ) { throw new IllegalArgumentException("dsf is used as parent of "+dsf1.getId() ); } } } ArrayList alsoRemove= new ArrayList<>(); // look for orphaned parents if ( dsf.getUri().startsWith("vap+internal:") ) { List parents= getParentsFor(application, dsf.getUri() ); for (DataSourceFilter pdf : parents) { if ( pdf==null ) continue; String dsfId = pdf.getId(); List usages = DomUtil.dataSourceUsages(application, dsfId); usages.remove(dsf); if (usages.isEmpty()) { alsoRemove.add(pdf); } } } List dsfs = new ArrayList<>(Arrays.asList(application.getDataSourceFilters())); dsfs.remove(dsf); dsfs.removeAll(alsoRemove); application.setDataSourceFilters(dsfs.toArray(new DataSourceFilter[dsfs.size()])); } /** * list the differences in two arrays of the same type of object. * This is the diffs that will make nodes2 look like nodes1. * Presently this just identifies inserts and deletes. If the objects * are DomNodes, then ids are used to match nodes. * @param property name used to identify the difference in the result. * @param nodes1 list of nodes * @param nodes2 list of nodex * @return list of Diffs between the lists. */ public static List getArrayDiffs(String property, Object[] nodes1, Object[] nodes2) { List result = new LinkedList<>(); List node1List = new ArrayList<>(Arrays.asList(nodes1)); List node2List = new ArrayList<>(Arrays.asList(nodes2)); List deleteList = new ArrayList<>(); int i2=0; for ( Object o: nodes2 ) { if ( indexOf( node2List, o )!=i2 ) { deleteList.add( o ); logger.log( Level.WARNING, "two nodes have the same ID: {0}", o); } // throw IllegalArgumentException("two nodes have the same ID: "+o); i2++; } for ( Object o: nodes2 ) { if ( indexOf( node1List, o )==-1 ) deleteList.add( o ); } boolean isDomNode = DomNode.class.isAssignableFrom(nodes1.getClass().getComponentType()); for ( Object deleteList1 : deleteList ) { int idx = indexOf(node2List, deleteList1); result.add(new ArrayNodeDiff(property, ArrayNodeDiff.Action.Delete, node2List.get(idx), idx)); node2List.remove(idx); } List addList = new ArrayList<>(); for ( Object o: nodes1 ) { if ( indexOf( node2List, o )==-1 ) addList.add( o ); } for (Object addList1 : addList) { int idx; idx = indexOf(node1List, addList1); if (nodes1[idx] instanceof DomNode) { result.add(new ArrayNodeDiff(property, ArrayNodeDiff.Action.Insert, ((DomNode) nodes1[idx]).copy(), idx)); } else { result.add(new ArrayNodeDiff(property, ArrayNodeDiff.Action.Insert, nodes1[idx], idx)); } node2List.add(idx, nodes1[idx]); } if ( node1List.size()!=node2List.size() ) { logger.warning("2057: bug where two nodes have the duplicate ID detected."); } //TODO: handle resort with Action.Move if (isDomNode) { for (int i = 0; i < node1List.size(); i++) { result.addAll(childDiffs(property + "[" + i + "]", getDiffs((DomNode)node1List.get(i), (DomNode)node2List.get(i)))); } } return result; } /** * automatically detect the diffs between two DomNodes of the same type. * return the list of diffs that will make node2 look like node1. * The property "controller" is ignored. * @param node1 * @param node2 * @return */ public static List getDiffs(DomNode node1, DomNode node2) { return getDiffs(node1, node2, null); } /** * return the list of diffs that will make node2 look like node1. This * assumes that the two nodes are not modified by another thread. * @param node1 a node * @param node2 a node * @param exclude if non-null, exclude these properties. * @return */ public static List getDiffs(DomNode node1, DomNode node2, List exclude) { String[] props = BeansUtil.getPropertyNames(node1.getClass()); PropertyDescriptor[] pds = BeansUtil.getPropertyDescriptors(node1.getClass()); List diffs = new ArrayList<>(); for (int i = 0; i < props.length; i++) { if (props[i].equals("controller")) continue; if (exclude != null && exclude.contains(props[i])) continue; try { Object val1 = pds[i].getReadMethod().invoke(node1, new Object[0]); Object val2 = pds[i].getReadMethod().invoke(node2, new Object[0]); if (pds[i] instanceof IndexedPropertyDescriptor) { diffs.addAll( getArrayDiffs(props[i], (DomNode[]) val1, (DomNode[]) val2) ); } else if (DomNode.class.isAssignableFrom(pds[i].getReadMethod().getReturnType())) { diffs.addAll( DomUtil.childDiffs(props[i], ((DomNode) val1).diffs((DomNode) val2)) ); } else { if (val1 != val2 && (val1 == null || !val1.equals(val2))) { diffs.add(new PropertyChangeDiff(props[i], val2, val1)); } } } catch (IllegalAccessException | IllegalArgumentException | InvocationTargetException ex) { logger.log(Level.WARNING,ex.getMessage(),ex); } } return diffs; } /** * sync node1 to node2 through introspection. This only works for nodes * without controllers, etc. It would be really nice to figure out how * to generalize this to include inserted nodes,etc. * * @param node1 * @param node2 */ public static void syncTo(DomNode node1, DomNode node2) { List diffs = node2.diffs(node1); for (Diff d : diffs) { d.doDiff(node1); } } public static void syncTo(DomNode node1, DomNode node2, List exclude) { List diffs = node2.diffs(node1); for (Diff d : diffs) { if (!exclude.contains(d.propertyName())) d.doDiff(node1); } } public static String encodeColor(java.awt.Color c) { return "#" + Integer.toHexString(c.getRGB() & 0xFFFFFF); } public static String encodeFont(java.awt.Font f) { String style="-"; if ( f.isBold() ) style+="bold"; if ( f.isItalic() ) style+="italic"; String result= f.getFamily(); if ( style.length()>1 ) result+= style; return result + "-" + f.getSize(); } public static final Converter STRING_TO_FONT= new Converter() { @Override public Object convertForward(Object value) { return java.awt.Font.decode((String)value); } @Override public Object convertReverse(Object value) { return encodeFont((java.awt.Font)value); } }; public static final Converter STRING_TO_COLOR= new Converter() { @Override public Object convertForward(Object value) { return java.awt.Color.decode((String)value); } @Override public Object convertReverse(Object value) { return encodeColor( (java.awt.Color)value); } }; public static final Converter AUTO_TO_COLOR= new Converter() { @Override public Object convertForward(Object value) { boolean b= ((Boolean)value); return b ? Color.WHITE : Color.LIGHT_GRAY; } @Override public Object convertReverse(Object value) { return Color.WHITE.equals(value); } }; /** * returns true if all the plotElements are a parent and its children. * @param elementsIn * @return */ public static boolean oneFamily( List elementsIn ) { if ( elementsIn.isEmpty() ) return false; List elements= new ArrayList(elementsIn); PlotElement pe= elements.get(0); if ( pe.getController().getParentPlotElement()!=null ) { pe= pe.getController().getParentPlotElement(); } elements.remove(pe); elements.removeAll( pe.getController().getChildPlotElements() ); return elements.isEmpty(); } /** * return the parent DataSourceFilters for uris like vap+internal:data_1,data_2 * Note this was the only way to combine * data before the "Data Mashup Tool" was introduced, and the Mashup tool * is probably a better way to do this. * @param dom the dom * @param uri the uri, like vap+internal:data_1,data_2 * @return the DataSourceFilters */ public static List getParentsFor( Application dom, String uri ) { String parents= uri.substring(13); // "vap+internal:".length if ( parents.trim().length()==0 ) return Collections.emptyList(); String[] dep= parents.split(","); List result= new ArrayList(); for (String dep1 : dep) { result.add((DataSourceFilter) getElementById(dom, dep1)); } return result; } /** * returns true if the dom is valid, throws a runtime exception otherwise * @param application the dom * @param problems descriptions of the problems will be inserted here * @return true if the dom is valid, throws a runtime exception otherwise */ public static boolean validateDom( Application application, List problems ) { DomLock lock=null; if ( application.getController()!=null ) { lock= application.getController().mutatorLock(); lock.lock("Validate DOM"); } try { for ( int i=0; i13 ) { String[] dep= uri.substring(13).split(","); for (String dep1 : dep) { if (getElementById(application, dep1) == null) { problems.add("unable to find dsf " + dep1 + " for dsf " + dsf.getId()); } } } } for ( int i=0; i getPlotElementsFor( Application application, Plot plot ) { String id = plot.getId(); List result = new ArrayList<>(); for (PlotElement p : application.getPlotElements()) { if (p.getPlotId().equals(id)) { result.add(p); } } return result; } /** * Return the plot elements that contained within a plot. * @param application the dom for a plot. * @param dsf the data source filter used by one (or more) plot element. * @return the plot elements using the dataSourceFilter. */ public static List getPlotElementsFor( Application application, DataSourceFilter dsf ) { String id = dsf.getId(); return getPlotElementsFor( application, id ); } private static List getPlotElementsFor( Application application, String id ) { List result = new ArrayList<>(); for (PlotElement p : application.getPlotElements()) { if (p.getDataSourceFilterId().equals(id)) { result.add(p); } } for ( DataSourceFilter dsf: application.getDataSourceFilters() ) { if ( dsf==null ) { logger.finer("found dsf that is null, which is done sometimes to mark as done. Ignoring."); continue; } String uri= dsf.getUri(); if ( uri.startsWith("vap+internal:") ) { String[] ss= uri.substring(13).split(","); for (String s : ss) { if (s.equals(id)) { List pes1= getPlotElementsFor(application,dsf.getId()); result.addAll(pes1); } } } } return result; } /** * allow verification that the node has a property. I killed an hour with a * bug where I was using "timerange" instead of "timeRange"... * Always use the constants: Application.PROP_TIMERANGE * @param node1 * @param property * @return */ public static boolean nodeHasProperty(DomNode node1, String property) { String[] props = BeansUtil.getPropertyNames(node1.getClass()); for (String prop : props) { if (prop.equals(property)) { return true; } } return false; } /** * plugs values from USER_PROPERTIES or METADATA into template string. * @param template template, for example the title or label. * @param root USER_PROPERTIES, METADATA, etc. * @param props properties tree. * @return */ public static String resolveProperties( String template, String root, Map props ) { try { int i= template.indexOf("%{"+root+"."); int n= root.length()+3; while ( i>-1 ) { int i2= template.indexOf('}',i); String propName= template.substring(i+n,i2); int i3= propName.indexOf('.'); Map props1= props; while ( i3>-1 ) { String propName1= propName.substring(0,i3); props1= (Map) props.get(propName1); propName= propName.substring(i3+1); i3= propName.indexOf('.'); } String prop= String.valueOf( props1.get(propName) ); template= template.substring(0,i) + prop + template.substring(i2+1); i= template.indexOf("%{"+root+".",i); } } catch ( Exception ex ) { logger.log(Level.INFO, "unable to resolve template: {0}", template); logger.log(Level.FINE,null,ex); } return template; } /** * Find the binding, if it exists. All bindingImpls are symmetric, so the src and dst order is ignored in this * search. * @param dom the dom tree * @param src * @param srcProp * @param dst * @param dstProp * @return the BindingModel or null if it doesn't exist. */ public static BindingModel findBinding( Application dom, DomNode src, String srcProp, DomNode dst, String dstProp) { List results= findBindings( dom, src, srcProp, dst, dstProp ); if ( results.isEmpty() ) { return null; } else { return results.get(0); // TODO: this should be a singleton. } } /** * returns a list of bindings of the node for the property * @param dom the dom tree * @param src the node to which or from which a binding exists * @param srcProp the property name of the binding. * @return */ public static List findBindings( Application dom, DomNode src, String srcProp ) { List bindings= findBindings( dom, src, srcProp, null, null ); List bindings2= findBindings( dom, null, null, src, srcProp ); bindings2.removeAll(bindings); bindings.addAll(bindings2); return bindings; } /** * Find the bindings that match given constraints. If a property name or node is null, then the * search is unconstrained. * @param dom the dom tree * @param src * @param srcProp * @param dst * @param dstProp * @return the BindingModel or null if it doesn't exist. */ public static List findBindings( Application dom, DomNode src, String srcProp, DomNode dst, String dstProp) { List result= new ArrayList(); for (BindingModel b : dom.getBindings()) { try { if ( ( src==null || b.getSrcId().equals(src.getId()) ) && ( dst==null || b.getDstId().equals(dst.getId()) ) && ( srcProp==null || b.getSrcProperty().equals(srcProp) ) && ( dstProp==null || b.getDstProperty().equals(dstProp) ) ){ result.add(b); } else if ( ( dst==null || b.getSrcId().equals(dst.getId()) ) && ( src==null || b.getDstId().equals(src.getId()) ) && ( dstProp==null || b.getSrcProperty().equals(dstProp) ) && ( srcProp==null || b.getDstProperty().equals(srcProp) ) ) { result.add(b); } } catch (NullPointerException ex) { throw ex; } } return result; } /** * Look through the state property values for references to ${PWD} * and replace them with sval. * @param state the domNode, typically starting from the Application root. * @param node %{PWD} * @param sval /tmp */ public static void applyMacro( DomNode state, String node, String sval) { String[] props = BeansUtil.getPropertyNames(state.getClass()); PropertyDescriptor[] pds = BeansUtil.getPropertyDescriptors(state.getClass()); for (int i = 0; i < props.length; i++) { if (props[i].equals("controller")) continue; try { if ( pds[i] instanceof IndexedPropertyDescriptor) { Method m= pds[i].getReadMethod(); if ( m!=null ) { Object vals1 = m.invoke(state, new Object[0]); for ( int j=0; j pes= getPlotElementsFor( application, domPlot ); newApp.setPlotElements(pes.toArray(new PlotElement[pes.size()] ) ); List dsfs= getDataSourceFiltersFor( application, domPlot ); newApp.setDataSourceFilters( dsfs.toArray(new DataSourceFilter[dsfs.size()]) ); newApp.setCanvases(application.getCanvases()); newApp.setId( application.id+"_"+domPlot.id ); ByteArrayOutputStream baos= new ByteArrayOutputStream(1000); try { StatePersistence.saveState( baos, newApp, "" ); return baos.toString("UTF-8"); } catch (IOException ex) { throw new RuntimeException(ex); } } /** * return the list of DataSourceFilters for a plot. * @param dom the application * @param p the plot * @return new list of dataSourceFilters */ public static List getDataSourceFiltersFor( Application dom, Plot p) { List dsfs= new ArrayList<>(); List pes= getPlotElementsFor(dom, p); for ( PlotElement pe: pes ) { DataSourceFilter dsf= (DataSourceFilter)getElementById( dom, pe.getDataSourceFilterId() ); dsfs.add( dsf ); if ( dsf.getUri().startsWith("vap+internal:") ) { dsfs.addAll( getParentsFor(dom, dsf.getUri() ) ); } } return dsfs; } private static ArrayList vapToJython( ArrayList jython, String nodeAddress, PropertyChangeDiff pcd ) { String propertyName= pcd.propertyName; if ( propertyName.endsWith("scale") ) { return jython; } else if ( propertyName.endsWith("autoLabel") ) { return jython; } else if ( propertyName.startsWith("options") ) { return jython; } Object o= pcd.newVal; String s; if ( o instanceof String ) { s= "'"+o+"'"; } else if ( o instanceof Boolean ) { s= o.toString(); s= String.valueOf( Character.toUpperCase(s.charAt(0)) ) + s.substring(1); } else if ( o instanceof Color ) { Color c= (Color)o; s= "color('"+ColorUtil.nameForColor(c)+"')"; } else if ( o instanceof DatumRange ) { s= "datumRange('"+o+"')"; } else if ( o instanceof Datum ) { s= "datum('"+o+"')"; } else if ( o instanceof Enum ) { String sclaz= ((Enum) o).getDeclaringClass().getCanonicalName(); jython.add( "import " + sclaz ); s= "" + sclaz + "."+ o; //s= String.valueOf( Character.toUpperCase(s.charAt(0)) ) + s.substring(1); } else if ( o instanceof Displayable ) { String sclaz= ((Displayable) o).getClass().getCanonicalName(); jython.add( "import " + sclaz ); s= "" + sclaz + "."+ o.toString().toUpperCase(); //s= String.valueOf( Character.toUpperCase(s.charAt(0)) ) + s.substring(1); } else { s= String.valueOf(o); } jython.add( nodeAddress + "." + pcd.propertyName + " = " + s ); return jython; } private static ArrayList vapToJython( String nodeAddress, DomNode src, DomNode dst ) { ArrayList jython= new ArrayList<>(); List diffs= dst.diffs(src); for ( Diff d: diffs ) { if ( d instanceof PropertyChangeDiff ) { jython = vapToJython( jython, nodeAddress, (PropertyChangeDiff)d ); // } else if ( d instanceof ) } else { throw new IllegalArgumentException("only property change diffs!"); } } return jython; } /** * Ivar requested a vap-to-Jython converter. * @param app0 * @param app * @return */ public static String[] vapToJython( Application app0, Application app ) { ArrayList jython= new ArrayList<>(); List diffs= app0.diffs(app); for ( Diff d: diffs ) { if ( d instanceof PropertyChangeDiff ) { PropertyChangeDiff pcd= (PropertyChangeDiff)d; jython = vapToJython( jython, "dom", pcd ); } else if ( d instanceof ArrayNodeDiff ) { ArrayNodeDiff and= (ArrayNodeDiff)d; if ( null!=and.action ) switch (and.action) { case Insert: if ( and.node instanceof Annotation ) { jython.add( "from org.autoplot.dom import Annotation" ); jython.add( "dom.controller.addAnnotation(Annotation())" ); jython.addAll( vapToJython( "dom.annotations["+and.index+"]", new Annotation(), (DomNode)and.node ) ); } else if ( and.node instanceof Plot ) { jython.add( "from org.autoplot.dom import Plot" ); jython.add( "dom.controller.addPlot(Plot())" ); jython.addAll( vapToJython( "dom.plots["+and.index+"]", new Plot(), (DomNode)and.node ) ); } else if ( and.node instanceof Row ) { } else if ( and.node instanceof Column ) { } else if ( and.node instanceof DataSourceFilter ) { jython.add( "from org.autoplot.dom import DataSourceFilter" ); jython.add( "dom.controller.addDataSourceFilter()" ); jython.addAll( vapToJython( "dom.dataSourceFilters["+and.index+"]", new DataSourceFilter(), (DomNode)and.node ) ); } else if ( and.node instanceof PlotElement ) { jython.add( "from org.autoplot.dom import PlotElement" ); jython.add( "dom.controller.addPlotElement(None,None)" ); jython.addAll( vapToJython( "dom.plotElements["+and.index+"]", new PlotElement(), (DomNode)and.node ) ); } else if ( and.node instanceof BindingModel ) { BindingModel bm= (BindingModel)and.node; jython.add( "bind( dom.getElementById('" + bm.srcId +"'), '" + bm.srcProperty + "' ,dom.getElementById('" + bm.dstId + "'), '"+ bm.dstProperty + "' )" ); } else { jython.add( "insert " + d.toString()); } break; case Delete: jython.add( "delete " + d.toString()); break; case Move: jython.add( "move " + d.toString()); break; default: break; } } else { jython.add( d.toString()); } } return jython.toArray( new String[jython.size()] ); } /** * print a one-line representation of the layout, showing canvas dimensions, * font size, margin row and column, and the first row. * @param c * @return */ public static String layoutToString( Canvas c ) { Row arow= c.getRows(0); return String.format( "\u2610 %dx%d %dpt %s %s %s", c.width, c.height, Font.decode(c.font).getSize(), "||" + c.marginColumn.getLeft()+","+c.marginColumn.getRight(), "=" + c.marginRow.getTop()+","+c.marginRow.getBottom(), "=" + arow.getTop() + "," + arow.getBottom() ); } public static List checkUniqueIdsAndReferences( Application dom, List problems ) { // check that all ids within the .vap are unique Map ids= new HashMap<>(); for ( DomNode n: dom.dataSourceFilters ) { DomNode n1= ids.get(n.id); if ( n1!=null ) { problems.add( "DataSourceFilter id is already taken by "+n1+"." ); } else { ids.put( n.id, n ); } } List cc= new ArrayList( dom.getCanvases(0).columns ); cc.add( dom.getCanvases(0).marginColumn ); for ( DomNode n: cc ) { DomNode n1= ids.get(n.id); if ( n1!=null ) { problems.add( "Column id is already taken by "+n1+"." ); } else { ids.put( n.id, n ); } } List rr= new ArrayList( dom.getCanvases(0).rows ); rr.add( dom.getCanvases(0).marginRow ); for ( DomNode n: rr ) { DomNode n1= ids.get(n.id); if ( n1!=null ) { problems.add( "Row id is already taken by "+n1+"." ); } else { ids.put( n.id, n ); } } for ( Plot n: dom.plots ) { DomNode n1= ids.get(n.id); if ( n1!=null ) { problems.add( "Plot id is already taken by "+n1+"." ); } else { ids.put( n.id, n ); } if ( ids.get( n.getRowId() )==null ) { problems.add( "PlotElement refers to row '"+n.getRowId()+"' which is not found: "+n ); } if ( ids.get( n.getColumnId() )==null ) { problems.add( "PlotElement refers to column '"+n.getColumnId()+"' which is not found: "+n ); } } for ( PlotElement pe: dom.plotElements ) { DomNode n1= ids.get(pe.id); if ( n1!=null ) { problems.add( "PlotElement id is already taken by "+n1+"." ); } else { ids.put( pe.id, pe ); } if ( ids.get(pe.plotId)==null ) { problems.add( "PlotElement refers to plot '"+pe.plotId+"' which is not found: "+pe ); } if ( ids.get(pe.dataSourceFilterId)==null ) { problems.add( "PlotElement refers to dataSourceFilter '"+pe.dataSourceFilterId+"' which is not found: "+pe ); } } for ( Connector c: dom.connectors ) { DomNode n1= ids.get(c.id); if ( n1!=null ) { problems.add( "Connector id is already taken by "+n1+"." ); } else { ids.put( c.id, c ); } if ( ids.get(c.plotA)==null ) { problems.add( "Connector refers to plot '"+c.plotA +"' which is not found: "+c ); } if ( ids.get(c.plotB)==null ) { problems.add( "Connector refers to plot '"+c.plotB +"' which is not found: "+c ); } } for ( Annotation a: dom.annotations ) { DomNode n1= ids.get(a.id); if ( n1!=null ) { problems.add( "Annotation id is already taken by "+n1+"." ); } else { ids.put( a.id, a ); } if ( a.getPlotId().length()>0 && ids.get(a.getPlotId())==null ) { problems.add( "Annotation refers to plot '"+a.getPlotId() +"' which is not found: "+a ); } if ( a.getColumnId().trim().length()>0 && ids.get(a.getColumnId())==null ) { problems.add( "Annotation refers to column '"+a.getColumnId() +"' which is not found: "+a ); } if ( a.getRowId().trim().length()>0 && ids.get(a.getRowId())==null ) { problems.add( "Annotation refers to row '"+a.getRowId() +"' which is not found: "+a ); } } return problems; } /** * copy over "vap+internal:" data, where data is found in the controller but no URI represents it. * This is to support https://sourceforge.net/p/autoplot/bugs/2332/, where we now copy over any data * we find as well. * @param srcdom the src dom with controllers and possibly internal data. * @param dstdom the dst dom with controllers. */ public static void copyOverInternalData(Application srcdom, Application dstdom) { DataSourceFilter[] srcdsfs= srcdom.getDataSourceFilters(); DataSourceFilter[] dstdsfs= dstdom.getDataSourceFilters(); if ( srcdsfs.length!=dstdsfs.length ) { throw new IllegalArgumentException("src and dest doms must be the same length."); } if ( dstdsfs.length>0 && dstdsfs[0].getController()==null ) { logger.warning("destination does not have controllers, internal data in src will be ignored."); return; } for ( int i=0; i