Use the new "most recent important records" record list when creating notes and slides. Makes the code much cleaner, and means that handling older versions of slides is taken care of in a much better manner
git-svn-id: https://svn.apache.org/repos/asf/jakarta/poi/trunk@353733 13f79535-47bb-0310-9956-ffa450edef68
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@ -59,29 +59,9 @@ public class SlideShow
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// Friendly objects for people to deal with
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private Slide[] _slides;
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private Notes[] _notes;
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// MetaSheets (eg masters) not yet supported
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// private MetaSheets[] _msheets;
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/**
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* right now this function takes one parameter: a ppt file, and outputs
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* the text it can find for it
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*/
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public static void main(String args[]) throws IOException
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{
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HSLFSlideShow basefoo = new HSLFSlideShow(args[0]);
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SlideShow foo = new SlideShow(basefoo);
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Slide[] slides = foo.getSlides();
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for(int i=0; i<slides.length; i++) {
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Slide slide = slides[i];
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System.out.println("*Slide " + slide.getSheetNumber() + ":");
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TextRun[] runs = slide.getTextRuns();
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for(int j=0; j<runs.length; j++) {
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TextRun run = runs[j];
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System.out.println(" * Text run " + run.getRunType());
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System.out.println("\n" + run.getText() + "\n");
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}
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}
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}
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/**
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* Constructs a Powerpoint document from the underlying
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@ -103,6 +83,7 @@ public class SlideShow
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buildSlidesAndNotes();
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}
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/**
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* Use the PersistPtrHolder entries to figure out what is
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* the "most recent" version of all the core records
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@ -189,32 +170,30 @@ public class SlideShow
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Vector notesV = new Vector(10);
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// For holding the Meta Sheet Records
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Vector metaSheetsV = new Vector(10);
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// For holding Document Records
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Vector documentsV = new Vector(10);
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// For holding SlideListWithText Records
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Vector slwtV = new Vector(10);
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// For holding the Document record we're going to use
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Record documentRecord = null;
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// Look for Notes, Slides and Documents
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for(int i=0; i<_records.length; i++) {
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if(_records[i] instanceof org.apache.poi.hslf.record.Notes) {
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notesV.add(_records[i]);
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for(int i=0; i<_mostRecentCoreRecords.length; i++) {
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if(_mostRecentCoreRecords[i] instanceof org.apache.poi.hslf.record.Notes) {
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notesV.add(_mostRecentCoreRecords[i]);
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}
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if(_records[i] instanceof org.apache.poi.hslf.record.Slide) {
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slidesV.add(_records[i]);
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if(_mostRecentCoreRecords[i] instanceof org.apache.poi.hslf.record.Slide) {
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slidesV.add(_mostRecentCoreRecords[i]);
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}
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if(_records[i].getRecordType() == 1000l) {
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documentsV.add(_records[i]);
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documentRecord = _mostRecentCoreRecords[i];
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}
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}
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// Also look for SlideListWithTexts in Documents
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// Now look for SlideListWithTexts in the most up-to-date Document Record
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//
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// Need to get the SlideAtomsSets for all of these. Then, query the
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// SlidePersistAtom, and group stuff together between SLWT blocks
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// based on the refID/slideID. Finally, build up a list of all the
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// SlideAtomsSets for a given refID / slideID, and pass them on to
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// the Slide when creating
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// based on the refID/slideID
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//
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// If a notes sheet exists, can normally match the Notes sheet ID
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// to the slide ID in the SlidePersistAtom. Since there isn't always,
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@ -222,47 +201,44 @@ public class SlideShow
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// and hand off to the Slides in turn.
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// (Based on output from dev.SLWTTextListing and dev.SlideAndNotesAtomListing)
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//
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// There is often duplicate text, especially for the first few
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// Slides. Currently, it's up to the Slide model code to detect
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// and ignore those
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// We're trusting that the ordering of slides from the persistence
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// layer will match the ordering found here. However, we should
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// really find a PPT file with random sheets inserted to check with
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//
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// There shouldn't be any text duplication - only using the most
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// record Document record's SLWTs should see to that
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for(int i=0; i<documentsV.size(); i++) {
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Record docRecord = (Record)documentsV.get(i);
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Record[] docChildren = docRecord.getChildRecords();
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for(int j=0; j<docChildren.length; j++) {
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if(docChildren[j] instanceof SlideListWithText) {
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//System.out.println("Found SLWT in document " + i);
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//System.out.println(" Has " + docChildren[j].getChildRecords().length + " children");
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slwtV.add(docChildren[j]);
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}
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Record[] docChildren = documentRecord.getChildRecords();
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for(int i=0; i<docChildren.length; i++) {
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if(docChildren[i] instanceof SlideListWithText) {
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slwtV.add(docChildren[i]);
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}
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}
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// For now, grab out all the sets of Atoms in the SlideListWithText's
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// Only store those which aren't empty
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// Also, get the list of IDs while we're at it
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HashSet uniqueSlideIDs = new HashSet();
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Vector setsV = new Vector();
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for(int i=0; i<slwtV.size(); i++) {
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SlideListWithText slwt = (SlideListWithText)slwtV.get(i);
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SlideAtomsSet[] thisSets = slwt.getSlideAtomsSets();
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for(int j=0; j<thisSets.length; j++) {
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setsV.add(thisSets[j]);
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SlideAtomsSet thisSet = thisSets[j];
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setsV.add(thisSet);
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int id = thisSet.getSlidePersistAtom().getSlideIdentifier();
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Integer idI = new Integer(id);
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if(! uniqueSlideIDs.contains(idI) ) {
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uniqueSlideIDs.add(idI);
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} else {
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System.err.println("** WARNING - Found two SlideAtomsSets for a given slide (" + id + ") - only using the first one **");
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}
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}
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}
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// Now, sort the SlideAtomSets together into groups for the same slide ID,
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// and order them by the slide ID
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// Find the unique IDs
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HashSet uniqueSlideIDs = new HashSet();
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for(int i=0; i<setsV.size(); i++) {
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SlideAtomsSet thisSet = (SlideAtomsSet)setsV.get(i);
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int id = thisSet.getSlidePersistAtom().getSlideIdentifier();
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Integer idI = new Integer(id);
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if(! uniqueSlideIDs.contains(idI) ) {
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uniqueSlideIDs.add(idI);
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}
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}
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// Now, order the SlideAtomSets by their slide's ID
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int[] slideIDs = new int[uniqueSlideIDs.size()];
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int pos = 0;
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for(Iterator getIDs = uniqueSlideIDs.iterator(); getIDs.hasNext(); pos++) {
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@ -272,7 +248,7 @@ public class SlideShow
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// Sort
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Arrays.sort(slideIDs);
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// Group
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Vector[] sortedSetsV = new Vector[slideIDs.length];
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SlideAtomsSet[] slideAtomSets = new SlideAtomsSet[slideIDs.length];
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for(int i=0; i<setsV.size(); i++) {
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SlideAtomsSet thisSet = (SlideAtomsSet)setsV.get(i);
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int id = thisSet.getSlidePersistAtom().getSlideIdentifier();
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@ -280,11 +256,11 @@ public class SlideShow
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for(int j=0; j<slideIDs.length; j++) {
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if(slideIDs[j] == id) { arrayPos = j; }
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}
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if(sortedSetsV[arrayPos] == null) { sortedSetsV[arrayPos] = new Vector(); }
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sortedSetsV[arrayPos].add(thisSet);
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slideAtomSets[arrayPos] = thisSet;
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}
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// ******************* Do the real model layer creation ****************
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@ -302,42 +278,28 @@ public class SlideShow
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// Grab the slide Record
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org.apache.poi.hslf.record.Slide slideRecord = (org.apache.poi.hslf.record.Slide)slidesV.get(i);
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// Decide if we've got a SlideAtomSet to use
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SlideAtomsSet atomSet = null;
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if(i < slideAtomSets.length) {
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atomSet = slideAtomSets[i];
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}
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// Do they have a Notes?
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Notes thisNotes = null;
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// Find their SlideAtom, and use this to check for a Notes
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Record[] slideRecordChildren = slideRecord.getChildRecords();
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for(int j=0; j<slideRecordChildren.length; j++) {
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if(slideRecordChildren[j] instanceof SlideAtom) {
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SlideAtom sa = (SlideAtom)slideRecordChildren[j];
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int notesID = sa.getNotesID();
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if(notesID != 0) {
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for(int k=0; k<_notes.length; k++) {
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if(_notes[k].getSheetNumber() == notesID) {
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thisNotes = _notes[k];
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}
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}
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SlideAtom sa = slideRecord.getSlideAtom();
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int notesID = sa.getNotesID();
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if(notesID != 0) {
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for(int k=0; k<_notes.length; k++) {
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if(_notes[k].getSheetNumber() == notesID) {
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thisNotes = _notes[k];
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}
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}
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}
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// Grab the (hopefully) corresponding block of Atoms
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SlideAtomsSet[] sets;
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if(sortedSetsV.length > i) {
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Vector thisSetsV = sortedSetsV[i];
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sets = new SlideAtomsSet[thisSetsV.size()];
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for(int j=0; j<sets.length; j++) {
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sets[j] = (SlideAtomsSet)thisSetsV.get(j);
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}
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//System.out.println("For slide " + i + ", found " + sets.length + " Sets of text");
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} else {
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// Didn't find enough SlideAtomSets to give any to this sheet
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sets = new SlideAtomsSet[0];
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}
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// Create the Slide model layer
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_slides[i] = new Slide(slideRecord,thisNotes,sets);
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// Create the Slide model layer
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_slides[i] = new Slide(slideRecord,thisNotes,atomSet);
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}
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}
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