public DimensionMetaData createDimensionWithName(String dimName) { DimensionMetaData dimension = new DimensionMetaData(dimName); dimension.setExpanded(true); HierarchyMetaData hierarchy = createHierarchyForParentWithNode(dimension, null); hierarchy.setParent(dimension); hierarchy.setExpanded(true); dimension.add(hierarchy); return dimension; }
public DimensionMetaData createDimensionFromNode(ColumnBackedNode obj) { DimensionMetaData dimension = new DimensionMetaData(obj.getName()); dimension.setExpanded(true); HierarchyMetaData hierarchy = createHierarchyForParentWithNode(dimension, obj); hierarchy.setParent(dimension); hierarchy.setExpanded(true); dimension.add(hierarchy); return dimension; }
public HierarchyMetaData createHierarchyForParentWithNode( DimensionMetaData parent, ColumnBackedNode obj) { HierarchyMetaData hier = new HierarchyMetaData(obj.getName()); hier.setParent(parent); hier.setExpanded(true); if (obj != null) { LevelMetaData level = createLevelForParentWithNode(hier, obj); hier.add(level); } return hier; }
public DimensionMetaData createDimensionFromAvailableTable(AvailableTable tbl) { DimensionMetaData dimension = new DimensionMetaData(tbl.getName()); dimension.setExpanded(true); HierarchyMetaData hierarchy = new HierarchyMetaData(tbl.getName()); hierarchy.setExpanded(true); for (AvailableField field : tbl.getChildren()) { ColumnBackedNode node = this.createColumnBackedNode(field, ModelerPerspective.ANALYSIS); LevelMetaData level = createLevelForParentWithNode(hierarchy, node); hierarchy.add(level); } hierarchy.setParent(dimension); hierarchy.setExpanded(true); dimension.add(hierarchy); return dimension; }
// this method signature is intended to provide a simpler path for unit testing the upConvert // method on its own protected void setDomain(Domain d, boolean upConvertDesired) { this.domain = d; this.setModelIsChanging(true); this.setRelationalModelIsChanging(true); this.model.getDimensions().clear(); this.model.getMeasures().clear(); this.relationalModel.getCategories().clear(); this.availableTables.clear(); if (upConvertDesired) { upConvertLegacyModel(); } List<IAvailableItem> items = new ArrayList<IAvailableItem>(); for (IPhysicalTable table : domain.getPhysicalModels().get(0).getPhysicalTables()) { Boolean isFact = (Boolean) table.getProperty("FACT_TABLE"); items.add(new AvailableTable(table, isFact == null ? false : isFact.booleanValue())); } availableTables.setChildren(items); fireTablesChanged(); LogicalModel lModel = domain.getLogicalModels().get(0); setModelName(lModel.getName(workspaceHelper.getLocale())); setRelationalModelName(lModel.getName(workspaceHelper.getLocale())); // Set the type of modeling session. This will propagate to the UI if (supportsOlap(domain)) { this.setModellingMode(ModelerMode.ANALYSIS_AND_REPORTING); } else { this.setModellingMode(ModelerMode.REPORTING_ONLY); } lModel = getLogicalModel(ModelerPerspective.ANALYSIS); List<OlapDimension> theDimensions = null; if (lModel != null) { theDimensions = (List) lModel.getProperty(LogicalModel.PROPERTY_OLAP_DIMS); // $NON-NLS-1$ } if (theDimensions != null) { Iterator<OlapDimension> theDimensionItr = theDimensions.iterator(); while (theDimensionItr.hasNext()) { OlapDimension theDimension = theDimensionItr.next(); DimensionMetaData theDimensionMD = new DimensionMetaData(theDimension.getName(), theDimension.getType()); theDimensionMD.setTimeDimension(theDimension.isTimeDimension()); List<OlapHierarchy> theHierarchies = (List) theDimension.getHierarchies(); Iterator<OlapHierarchy> theHierarchiesItr = theHierarchies.iterator(); while (theHierarchiesItr.hasNext()) { OlapHierarchy theHierarchy = theHierarchiesItr.next(); HierarchyMetaData theHierarchyMD = new HierarchyMetaData(theHierarchy.getName()); List<OlapHierarchyLevel> theLevels = theHierarchy.getHierarchyLevels(); Iterator<OlapHierarchyLevel> theLevelsItr = theLevels.iterator(); while (theLevelsItr.hasNext()) { OlapHierarchyLevel theLevel = theLevelsItr.next(); LevelMetaData theLevelMD = new LevelMetaData(theHierarchyMD, theLevel.getName()); theLevelMD.setParent(theHierarchyMD); theLevelMD.setUniqueMembers(theLevel.isHavingUniqueMembers()); if (theDimensionMD.isTimeDimension()) { TimeRole role = TimeRole.fromMondrianAttributeValue(theLevel.getLevelType()); if (role != null) { theLevelMD.setDataRole(role); } } // Make sure we're dealing with the OLAP copy. Note that duplicated columns will have an // OLAP_[0-9]+ at the // end String refID; LogicalColumn olapCol; olapCol = theLevel.getReferenceColumn(); if (olapCol != null) { refID = olapCol.getId(); if (!refID.endsWith(BaseModelerWorkspaceHelper.OLAP_SUFFIX) && !refID.contains(BaseModelerWorkspaceHelper.OLAP_SUFFIX + "_")) { olapCol = ModelerConversionUtil.findCorrespondingOlapColumn(olapCol, lModel); theLevel.setReferenceColumn(olapCol); } theLevelMD.setLogicalColumn(olapCol); } olapCol = theLevel.getReferenceOrdinalColumn(); if (olapCol != null) { refID = olapCol.getId(); if (!refID.endsWith(BaseModelerWorkspaceHelper.OLAP_SUFFIX) && !refID.contains(BaseModelerWorkspaceHelper.OLAP_SUFFIX + "_")) { olapCol = ModelerConversionUtil.findCorrespondingOlapColumn(olapCol, lModel); theLevel.setReferenceOrdinalColumn(olapCol); } theLevelMD.setLogicalOrdinalColumn(olapCol); } olapCol = theLevel.getReferenceCaptionColumn(); if (olapCol != null) { refID = olapCol.getId(); if (!refID.endsWith(BaseModelerWorkspaceHelper.OLAP_SUFFIX) && !refID.contains(BaseModelerWorkspaceHelper.OLAP_SUFFIX + "_")) { olapCol = ModelerConversionUtil.findCorrespondingOlapColumn(olapCol, lModel); theLevel.setReferenceCaptionColumn(olapCol); } theLevelMD.setLogicalCaptionColumn(olapCol); } // get any logicalColumns and turn them into member properties if (theLevel.getLogicalColumns() != null && theLevel.getLogicalColumns().size() > 0) { for (LogicalColumn lc : theLevel.getLogicalColumns()) { // BISERVER-11578 - Protect against null lc's in the collection. We still need to // investigate why this can happen in the model. if (lc == null) { continue; } if (!lc.getId().endsWith(BaseModelerWorkspaceHelper.OLAP_SUFFIX) && !lc.getId().contains(BaseModelerWorkspaceHelper.OLAP_SUFFIX + "_")) { // not pointing to the olap col lc = ModelerConversionUtil.findCorrespondingOlapColumn(lc, lModel); } MemberPropertyMetaData memberProp = new MemberPropertyMetaData(theLevelMD, lc.getName(workspaceHelper.getLocale())); memberProp.setLogicalColumn(lc); memberProp.setDescription(lc.getDescription(workspaceHelper.getLocale())); theLevelMD.add(memberProp); } } List<OlapAnnotation> annotations = theLevel.getAnnotations(); if (annotations != null) { for (OlapAnnotation anno : annotations) { IMemberAnnotation annoMeta = MemberAnnotationFactory.create(anno); theLevelMD.getMemberAnnotations().put(anno.getName(), annoMeta); } } theHierarchyMD.add(theLevelMD); } theHierarchyMD.setParent(theDimensionMD); theDimensionMD.add(theHierarchyMD); } this.model.getDimensions().add(theDimensionMD); } } List<OlapCube> theCubes = null; if (lModel != null) { theCubes = (List) lModel.getProperty(LogicalModel.PROPERTY_OLAP_CUBES); // $NON-NLS-1$ } if (theCubes != null) { Iterator<OlapCube> theCubeItr = theCubes.iterator(); while (theCubeItr.hasNext()) { OlapCube theCube = theCubeItr.next(); List<OlapMeasure> theMeasures = theCube.getOlapMeasures(); Iterator<OlapMeasure> theMeasuresItr = theMeasures.iterator(); while (theMeasuresItr.hasNext()) { OlapMeasure theMeasure = theMeasuresItr.next(); MeasureMetaData theMeasureMD = new MeasureMetaData(workspaceHelper.getLocale()); if (theMeasure.getName() == null || theMeasure.getName().length() == 0) { theMeasureMD.setName( theMeasure.getLogicalColumn().getName(workspaceHelper.getLocale())); } else { theMeasureMD.setName(theMeasure.getName()); } theMeasureMD.setFormat( (String) theMeasure.getLogicalColumn().getProperty("mask")); // $NON-NLS-1$ theMeasureMD.setDefaultAggregation(theMeasure.getLogicalColumn().getAggregationType()); String possibleMeasureName = theMeasure.getLogicalColumn().getId(); if (!theMeasure .getLogicalColumn() .getId() .endsWith(BaseModelerWorkspaceHelper.OLAP_SUFFIX) && !theMeasure .getLogicalColumn() .getId() .contains(BaseModelerWorkspaceHelper.OLAP_SUFFIX + "_")) { // change the backing column to the olap version LogicalColumn olapCol = ModelerConversionUtil.findCorrespondingOlapColumn( theMeasure.getLogicalColumn(), lModel); theMeasure.setLogicalColumn(olapCol); } // BISERVER-6077 - Mondrian exporter uses logical column names as measure names, make sure // they get set // properly LogicalColumn lCol = theMeasure.getLogicalColumn(); Set<String> locales = lCol.getName().getLocales(); String[] stringLocals = locales.toArray(new String[] {}); if (stringLocals != null && stringLocals.length > 0) { if (theMeasure.getName() == null || theMeasure.getName().trim().length() == 0) { theMeasure.setName(possibleMeasureName); } lCol.setName(new LocalizedString(stringLocals[0], theMeasure.getName())); } theMeasureMD.setLogicalColumn(lCol); this.model.getMeasures().add(theMeasureMD); } } } lModel = this.getLogicalModel(ModelerPerspective.REPORTING); int i = 1; for (Category cat : lModel.getCategories()) { String catName = BaseModelerWorkspaceHelper.getCleanCategoryName( cat.getName(workspaceHelper.getLocale()), this, i++); CategoryMetaData catMeta = new CategoryMetaData(catName); for (LogicalColumn col : cat.getLogicalColumns()) { LogicalTable table = col.getLogicalTable(); if (!table.getLogicalColumns().contains(col)) { table.addLogicalColumn(col); } Object formatMask = col.getProperty("mask"); String colName = col.getName(workspaceHelper.getLocale()); AggregationType aggType = col.getAggregationType(); FieldMetaData field = new FieldMetaData( catMeta, colName, formatMask == null ? null : formatMask.toString(), colName, workspaceHelper.getLocale()); if (aggType != null) { field.setDefaultAggregation(aggType); } else { field.setDefaultAggregation(AggregationType.NONE); } field.setLogicalColumn(col); catMeta.add(field); } this.getRelationalModel().getCategories().add(catMeta); } this.setModelIsChanging(false, true); this.setRelationalModelIsChanging(false, true); }