public static void main1(String[] args) throws ClassNotFoundException, SQLException { OlapConnection conn = getConnection(url); CellSet cs = getResultSet(mdx, conn); // CellSetAxis c; int count = 0; if (cs.getAxes().size() > 1) { for (Position row : cs.getAxes().get(1)) { for (Position column : cs.getAxes().get(0)) { for (Member member : row.getMembers()) { System.out.println("rows:" + member.getUniqueName()); } for (Member member : column.getMembers()) { System.out.println("columns:" + member.getUniqueName()); } final Cell cell = cs.getCell(column, row); System.out.println("values:" + cell.getValue()); Position[] positions = new Position[2]; positions[0] = column; positions[1] = row; OlapCell oalpCell = new OlapCell(positions, cell.getValue()); System.out.println("****" + oalpCell.toString()); System.out.println(count++); } } } }
public SaikuFilter getFilter( String queryName, String filtername, String dimensionName, String hierarchyName, String levelName) { IQuery query = getIQuery(queryName); CellSet cs = query.getCellset(); List<SimpleCubeElement> members = new ArrayList<SimpleCubeElement>(); SimpleCubeElement dimension = null; SimpleCubeElement hierarchy = null; Set<MetadataElement> mset = new HashSet<MetadataElement>(); if (cs != null) { List<CellSetAxis> axes = new ArrayList<CellSetAxis>(); axes.addAll(cs.getAxes()); axes.add(cs.getFilterAxis()); for (CellSetAxis axis : axes) { int posIndex = 0; for (Hierarchy h : axis.getAxisMetaData().getHierarchies()) { if (h.getName().equals(hierarchyName)) { if (hierarchy == null) { hierarchy = new SimpleCubeElement(h.getName(), h.getUniqueName(), h.getCaption()); Dimension d = h.getDimension(); dimension = new SimpleCubeElement(d.getName(), d.getUniqueName(), d.getCaption()); } if (h.getLevels().size() == 1) { break; } for (Position pos : axis.getPositions()) { Member m = pos.getMembers().get(posIndex); if (m.getLevel().getName().equals(levelName)) { mset.add(m); } } break; } posIndex++; } } if (mset.size() == 0) { QueryDimension qd = query.getDimension(dimensionName); if (qd != null && qd.getAxis().getLocation() != null) { for (Selection sel : qd.getInclusions()) { if ((sel.getRootElement() instanceof Member)) { Member m = ((Member) sel.getRootElement()); if (m.getLevel().getName().equals(levelName)) { mset.add(m); } } } } } members = ObjectUtil.convert2Simple(mset); Collections.sort(members, new SaikuUniqueNameComparator()); log.debug("Create Filters: Found members in the result or query: " + members.size()); } return new SaikuFilter(filtername, null, dimension, hierarchy, members); }
@Test public void testSaveModelSettings() throws ConfigurationException, IOException { PivotModel model = getPivotModel(); model.setMdx(getTestQuery()); model.initialize(); model.setSorting(true); model.setTopBottomCount(3); model.setSortCriteria(SortCriteria.BOTTOMCOUNT); CellSet cellSet = model.getCellSet(); CellSetAxis axis = cellSet.getAxes().get(Axis.COLUMNS.axisOrdinal()); model.sort(axis, axis.getPositions().get(0)); String mdx = model.getCurrentMdx(); XMLConfiguration configuration = new XMLConfiguration(); configuration.setDelimiterParsingDisabled(true); model.saveSettings(configuration); Logger logger = LoggerFactory.getLogger(getClass()); if (logger.isDebugEnabled()) { StringWriter writer = new StringWriter(); configuration.save(writer); writer.flush(); writer.close(); logger.debug("Loading report content :" + System.getProperty("line.separator")); logger.debug(writer.getBuffer().toString()); } PivotModel newModel = new PivotModelImpl(getDataSource()); newModel.restoreSettings(configuration); newModel.getCellSet(); String newMdx = newModel.getCurrentMdx(); if (newMdx != null) { // Currently the parser treats every number as double value. // It's inevitable now and does not impact the result. newMdx = newMdx.replaceAll("3\\.0", "3"); } assertEquals("MDX has been changed after the state restoration", mdx, newMdx); assertTrue( "Property 'sorting' has been changed after the state restoration", newModel.isSorting()); assertEquals( "Property 'topBottomCount' has been changed after the state restoration", 3, newModel.getTopBottomCount()); assertEquals( "Property 'sortMode' has been changed after the state restoration", SortCriteria.BOTTOMCOUNT, newModel.getSortCriteria()); }
public static void main(String[] args) throws Exception { OlapConnection conn = getConnection(url); CellSet cs = getResultSet(mdx, conn); List<Position> coordinates = new ArrayList<Position>(); List<OlapCell> results = new ArrayList<OlapCell>(); explore(cs.getAxes(), coordinates, cs, results); Gson gson = new Gson(); System.out.println(gson.toJson(results)); }
public ResultSet drillthrough( String queryName, List<Integer> cellPosition, Integer maxrows, String returns) { OlapStatement stmt = null; try { IQuery query = getIQuery(queryName); CellSet cs = query.getCellset(); SaikuCube cube = getQuery(queryName).getCube(); final OlapConnection con = olapDiscoverService.getNativeConnection(cube.getConnectionName()); stmt = con.createStatement(); String select = null; StringBuffer buf = new StringBuffer(); buf.append("SELECT ("); for (int i = 0; i < cellPosition.size(); i++) { List<Member> members = cs.getAxes().get(i).getPositions().get(cellPosition.get(i)).getMembers(); for (int k = 0; k < members.size(); k++) { Member m = members.get(k); if (k > 0 || i > 0) { buf.append(", "); } buf.append(m.getUniqueName()); } } buf.append(") ON COLUMNS \r\n"); buf.append("FROM " + cube.getCubeName() + "\r\n"); SelectNode sn = (new DefaultMdxParserImpl().parseSelect(getMDXQuery(queryName))); final Writer writer = new StringWriter(); sn.getFilterAxis().unparse(new ParseTreeWriter(new PrintWriter(writer))); if (StringUtils.isNotBlank(writer.toString())) { buf.append("WHERE " + writer.toString()); } select = buf.toString(); if (maxrows > 0) { select = "DRILLTHROUGH MAXROWS " + maxrows + " " + select + "\r\n"; } else { select = "DRILLTHROUGH " + select + "\r\n"; } if (StringUtils.isNotBlank(returns)) { select += "\r\n RETURN " + returns; } log.debug("Drill Through for query (" + queryName + ") : \r\n" + select); ResultSet rs = stmt.executeQuery(select); return rs; } catch (Exception e) { throw new SaikuServiceException("Error DRILLTHROUGH: " + queryName, e); } finally { try { if (stmt != null) stmt.close(); } catch (Exception e) { } } }
public List<SaikuMember> getResultMetadataMembers( String queryName, boolean preferResult, String dimensionName, String hierarchyName, String levelName) { IQuery query = getIQuery(queryName); CellSet cs = query.getCellset(); List<SaikuMember> members = new ArrayList<SaikuMember>(); Set<Level> levels = new HashSet<Level>(); if (cs != null && preferResult) { for (CellSetAxis axis : cs.getAxes()) { int posIndex = 0; for (Hierarchy h : axis.getAxisMetaData().getHierarchies()) { if (h.getUniqueName().equals(hierarchyName)) { log.debug("Found hierarchy in the result: " + hierarchyName); if (h.getLevels().size() == 1) { break; } Set<Member> mset = new HashSet<Member>(); for (Position pos : axis.getPositions()) { Member m = pos.getMembers().get(posIndex); if (!m.getLevel().getLevelType().equals(Type.ALL)) { levels.add(m.getLevel()); } if (m.getLevel().getUniqueName().equals(levelName)) { mset.add(m); } } members = ObjectUtil.convertMembers(mset); Collections.sort(members, new SaikuUniqueNameComparator()); break; } posIndex++; } } log.debug("Found members in the result: " + members.size()); } if (cs == null || !preferResult || members.size() == 0 || levels.size() == 1) { members = olapDiscoverService.getLevelMembers( query.getSaikuCube(), dimensionName, hierarchyName, levelName); } return members; }
/** * Prints the rows of cell set. * * @param cellSet Cell set * @param pw Writer * @param axis Axis ordinal * @param pos Partial coordinate */ private static void printRows(CellSet cellSet, PrintWriter pw, int axis, List<Integer> pos) { final CellSetAxis _axis = cellSet.getAxes().get(axis); final List<Position> positions = _axis.getPositions(); final int positionCount = positions.size(); for (int i = 0; i < positionCount; i++) { pos.set(axis, i); if (axis == 0) { int row = axis + 1 < pos.size() ? pos.get(axis + 1) : 0; pw.print("Row #" + row + ": "); printCell(cellSet, pw, pos); pw.println(); } else { printRows(cellSet, pw, axis - 1, pos); } } }
@Test public void testBookmarkModelState() { PivotModel model = getPivotModel(); model.setMdx(getTestQuery()); model.initialize(); model.setSorting(true); model.setTopBottomCount(3); model.setSortCriteria(SortCriteria.BOTTOMCOUNT); CellSet cellSet = model.getCellSet(); CellSetAxis axis = cellSet.getAxes().get(Axis.COLUMNS.axisOrdinal()); model.sort(axis, axis.getPositions().get(0)); String mdx = model.getCurrentMdx(); Serializable bookmark = model.saveState(); assertNotNull("Bookmarked state should not be null", bookmark); PivotModel newModel = new PivotModelImpl(getDataSource()); newModel.restoreState(bookmark); newModel.getCellSet(); String newMdx = newModel.getCurrentMdx(); if (newMdx != null) { // Currently the parser treats every number as double value. // It's inevitable now and does not impact the result. newMdx = newMdx.replaceAll("3\\.0", "3"); } assertEquals("MDX has been changed after the state restoration", mdx, newMdx); assertTrue( "Property 'sorting' has been changed after the state restoration", newModel.isSorting()); assertEquals( "Property 'topBottomCount' has been changed after the state restoration", 3, newModel.getTopBottomCount()); assertEquals( "Property 'sortMode' has been changed after the state restoration", SortCriteria.BOTTOMCOUNT, newModel.getSortCriteria()); }
public Matrix format(final CellSet cellSet) { // Compute how many rows are required to display the columns axis. final CellSetAxis columnsAxis; if (cellSet.getAxes().size() > 0) { columnsAxis = cellSet.getAxes().get(0); } else { columnsAxis = null; } final AxisInfo columnsAxisInfo = computeAxisInfo(columnsAxis); // Compute how many columns are required to display the rows axis. final CellSetAxis rowsAxis; if (cellSet.getAxes().size() > 1) { rowsAxis = cellSet.getAxes().get(1); } else { rowsAxis = null; } final AxisInfo rowsAxisInfo = computeAxisInfo(rowsAxis); if (cellSet.getAxes().size() > 2) { final int[] dimensions = new int[cellSet.getAxes().size() - 2]; for (int i = 2; i < cellSet.getAxes().size(); i++) { final CellSetAxis cellSetAxis = cellSet.getAxes().get(i); dimensions[i - 2] = cellSetAxis.getPositions().size(); } for (final int[] pageCoords : CoordinateIterator.iterate(dimensions)) { matrix = formatPage(cellSet, pageCoords, columnsAxis, columnsAxisInfo, rowsAxis, rowsAxisInfo); } } else { matrix = formatPage(cellSet, new int[] {}, columnsAxis, columnsAxisInfo, rowsAxis, rowsAxisInfo); } return matrix; }
/** * Prints a cell set. * * @param cellSet Cell set * @param pw Writer */ private static void print(CellSet cellSet, PrintWriter pw) { pw.println("Axis #0:"); printAxis(pw, cellSet.getFilterAxis()); final List<CellSetAxis> axes = cellSet.getAxes(); final int axisCount = axes.size(); for (int i = 0; i < axisCount; i++) { CellSetAxis axis = axes.get(i); pw.println("Axis #" + (i + 1) + ":"); printAxis(pw, axis); } // Usually there are 3 axes: {filter, columns, rows}. Position is a // {column, row} pair. We call printRows with axis=2. When it // recurses to axis=-1, it prints. List<Integer> pos = new ArrayList<Integer>(axisCount); for (int i = 0; i < axisCount; i++) { pos.add(-1); } if (axisCount == 0) { printCell(cellSet, pw, pos); } else { printRows(cellSet, pw, axisCount - 1, pos); } }
public SaikuTag createTag(String queryName, String tagName, List<List<Integer>> cellPositions) { try { IQuery query = getIQuery(queryName); CellSet cs = query.getCellset(); List<SaikuTuple> tuples = new ArrayList<SaikuTuple>(); List<SimpleCubeElement> dimensions = new ArrayList<SimpleCubeElement>(); for (List<Integer> cellPosition : cellPositions) { List<Member> members = new ArrayList<Member>(); for (int i = 0; i < cellPosition.size(); i++) { members.addAll(cs.getAxes().get(i).getPositions().get(cellPosition.get(i)).getMembers()); } List<SaikuMember> sm = ObjectUtil.convertMembers(members); SaikuTuple tuple = new SaikuTuple(sm); tuples.add(tuple); if (dimensions.size() == 0) { for (Member m : members) { SimpleCubeElement sd = new SimpleCubeElement( m.getDimension().getName(), m.getDimension().getUniqueName(), m.getDimension().getCaption()); if (!dimensions.contains(sd)) { dimensions.add(sd); } } } } List<SaikuDimensionSelection> filterSelections = getAxisSelection(queryName, "FILTER"); SaikuTag t = new SaikuTag(tagName, dimensions, tuples, filterSelections); return t; } catch (Exception e) { throw new SaikuServiceException("Error addTag:" + tagName + " for query: " + queryName, e); } }