Java tutorial
/* ==================================================================== Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file to You under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ==================================================================== */ package org.apache.poi.hssf.usermodel; import java.util.HashSet; import org.apache.poi.hssf.record.ExtendedFormatRecord; import org.apache.poi.hssf.record.FontRecord; import org.apache.poi.hssf.record.StyleRecord; import org.apache.poi.hssf.record.common.UnicodeString; import org.apache.poi.ss.usermodel.Cell; import org.apache.poi.ss.usermodel.CellType; import org.apache.poi.ss.usermodel.Row; /** * Excel can get cranky if you give it files containing too * many (especially duplicate) objects, and this class can * help to avoid those. * In general, it's much better to make sure you don't * duplicate the objects in your code, as this is likely * to be much faster than creating lots and lots of * excel objects+records, only to optimise them down to * many fewer at a later stage. * However, sometimes this is too hard / tricky to do, which * is where the use of this class comes in. */ public class HSSFOptimiser { /** * Goes through the Workbook, optimising the fonts by * removing duplicate ones. * For now, only works on fonts used in {@link HSSFCellStyle} * and {@link HSSFRichTextString}. Any other font uses * (eg charts, pictures) may well end up broken! * This can be a slow operation, especially if you have * lots of cells, cell styles or rich text strings * @param workbook The workbook in which to optimise the fonts */ public static void optimiseFonts(HSSFWorkbook workbook) { // Where each font has ended up, and if we need to // delete the record for it. Start off with no change short[] newPos = new short[workbook.getWorkbook().getNumberOfFontRecords() + 1]; boolean[] zapRecords = new boolean[newPos.length]; for (int i = 0; i < newPos.length; i++) { newPos[i] = (short) i; zapRecords[i] = false; } // Get each font record, so we can do deletes // without getting confused FontRecord[] frecs = new FontRecord[newPos.length]; for (int i = 0; i < newPos.length; i++) { // There is no 4! if (i == 4) continue; frecs[i] = workbook.getWorkbook().getFontRecordAt(i); } // Loop over each font, seeing if it is the same // as an earlier one. If it is, point users of the // later duplicate copy to the earlier one, and // mark the later one as needing deleting // Note - don't change built in fonts (those before 5) for (int i = 5; i < newPos.length; i++) { // Check this one for being a duplicate // of an earlier one int earlierDuplicate = -1; for (int j = 0; j < i && earlierDuplicate == -1; j++) { if (j == 4) continue; FontRecord frCheck = workbook.getWorkbook().getFontRecordAt(j); if (frCheck.sameProperties(frecs[i])) { earlierDuplicate = j; } } // If we got a duplicate, mark it as such if (earlierDuplicate != -1) { newPos[i] = (short) earlierDuplicate; zapRecords[i] = true; } } // Update the new positions based on // deletes that have occurred between // the start and them // Only need to worry about user fonts for (int i = 5; i < newPos.length; i++) { // Find the number deleted to that // point, and adjust short preDeletePos = newPos[i]; short newPosition = preDeletePos; for (int j = 0; j < preDeletePos; j++) { if (zapRecords[j]) newPosition--; } // Update the new position newPos[i] = newPosition; } // Zap the un-needed user font records for (int i = 5; i < newPos.length; i++) { if (zapRecords[i]) { workbook.getWorkbook().removeFontRecord(frecs[i]); } } // Tell HSSFWorkbook that it needs to // re-start its HSSFFontCache workbook.resetFontCache(); // Update the cell styles to point at the // new locations of the fonts for (int i = 0; i < workbook.getWorkbook().getNumExFormats(); i++) { ExtendedFormatRecord xfr = workbook.getWorkbook().getExFormatAt(i); xfr.setFontIndex(newPos[xfr.getFontIndex()]); } // Update the rich text strings to point at // the new locations of the fonts // Remember that one underlying unicode string // may be shared by multiple RichTextStrings! HashSet<UnicodeString> doneUnicodeStrings = new HashSet<>(); for (int sheetNum = 0; sheetNum < workbook.getNumberOfSheets(); sheetNum++) { HSSFSheet s = workbook.getSheetAt(sheetNum); for (Row row : s) { for (Cell cell : row) { if (cell.getCellType() == CellType.STRING) { HSSFRichTextString rtr = (HSSFRichTextString) cell.getRichStringCellValue(); UnicodeString u = rtr.getRawUnicodeString(); // Have we done this string already? if (!doneUnicodeStrings.contains(u)) { // Update for each new position for (short i = 5; i < newPos.length; i++) { if (i != newPos[i]) { u.swapFontUse(i, newPos[i]); } } // Mark as done doneUnicodeStrings.add(u); } } } } } } /** * Goes through the Wokrbook, optimising the cell styles * by removing duplicate ones, and ones that aren't used. * For best results, optimise the fonts via a call to * {@link #optimiseFonts(HSSFWorkbook)} first. * @param workbook The workbook in which to optimise the cell styles */ public static void optimiseCellStyles(HSSFWorkbook workbook) { // Where each style has ended up, and if we need to // delete the record for it. Start off with no change short[] newPos = new short[workbook.getWorkbook().getNumExFormats()]; boolean[] isUsed = new boolean[newPos.length]; boolean[] zapRecords = new boolean[newPos.length]; for (int i = 0; i < newPos.length; i++) { isUsed[i] = false; newPos[i] = (short) i; zapRecords[i] = false; } // Get each style record, so we can do deletes // without getting confused ExtendedFormatRecord[] xfrs = new ExtendedFormatRecord[newPos.length]; for (int i = 0; i < newPos.length; i++) { xfrs[i] = workbook.getWorkbook().getExFormatAt(i); } // Loop over each style, seeing if it is the same // as an earlier one. If it is, point users of the // later duplicate copy to the earlier one, and // mark the later one as needing deleting // Only work on user added ones, which come after 20 for (int i = 21; i < newPos.length; i++) { // Check this one for being a duplicate // of an earlier one int earlierDuplicate = -1; for (int j = 0; j < i && earlierDuplicate == -1; j++) { ExtendedFormatRecord xfCheck = workbook.getWorkbook().getExFormatAt(j); if (xfCheck.equals(xfrs[i]) && // newer duplicate user defined styles !isUserDefined(workbook, j)) { earlierDuplicate = j; } } // If we got a duplicate, mark it as such if (earlierDuplicate != -1) { newPos[i] = (short) earlierDuplicate; zapRecords[i] = true; } } // Loop over all the cells in the file, and identify any user defined // styles aren't actually being used (don't touch built-in ones) for (int sheetNum = 0; sheetNum < workbook.getNumberOfSheets(); sheetNum++) { HSSFSheet s = workbook.getSheetAt(sheetNum); for (Row row : s) { for (Cell cellI : row) { HSSFCell cell = (HSSFCell) cellI; short oldXf = cell.getCellValueRecord().getXFIndex(); // some documents contain invalid values here if (oldXf < newPos.length) { isUsed[oldXf] = true; } } // also mark row style as being used short oldXf = ((HSSFRow) row).getRowRecord().getXFIndex(); // some documents contain invalid values here if (oldXf < newPos.length) { isUsed[oldXf] = true; } } // also mark column styles as being used for (int col = s.getSheet().getMinColumnIndex(); col <= s.getSheet().getMaxColumnIndex(); col++) { short oldXf = s.getSheet().getXFIndexForColAt((short) col); // some documents contain invalid values here if (oldXf < newPos.length) { isUsed[oldXf] = true; } } } // Propagate isUsed for duplicates and always set user styles to being used to never optimize them away for (int i = 21; i < isUsed.length; i++) { // user defined styles are always "used" if (isUserDefined(workbook, i)) { isUsed[i] = true; } // If we got a duplicate which is used, mark the one we're keeping as used if (newPos[i] != i && isUsed[i]) { isUsed[newPos[i]] = true; } } // Mark any that aren't used as needing zapping for (int i = 21; i < isUsed.length; i++) { if (!isUsed[i]) { // Un-used style, can be removed zapRecords[i] = true; newPos[i] = 0; } } // Update the new positions based on // deletes that have occurred between // the start and them // Only work on user added ones, which come after 20 for (int i = 21; i < newPos.length; i++) { // Find the number deleted to that // point, and adjust short preDeletePos = newPos[i]; short newPosition = preDeletePos; for (int j = 0; j < preDeletePos; j++) { if (zapRecords[j]) newPosition--; } // Update the new position newPos[i] = newPosition; // also update StyleRecord and Parent-link if (i != newPosition && newPosition != 0) { workbook.getWorkbook().updateStyleRecord(i, newPosition); ExtendedFormatRecord exFormat = workbook.getWorkbook().getExFormatAt(i); short oldParent = exFormat.getParentIndex(); // some documents contain invalid values here if (oldParent < newPos.length) { short newParent = newPos[oldParent]; exFormat.setParentIndex(newParent); } } } // Zap the un-needed user style records // removing by index, because removing by object may delete // styles we did not intend to (the ones that _were_ duplicated and not the duplicates) int max = newPos.length; int removed = 0; // to adjust index after deletion for (int i = 21; i < max; i++) { if (zapRecords[i + removed]) { workbook.getWorkbook().removeExFormatRecord(i); i--; max--; removed++; } } // Finally, update the cells to point at their new extended format records for (int sheetNum = 0; sheetNum < workbook.getNumberOfSheets(); sheetNum++) { HSSFSheet s = workbook.getSheetAt(sheetNum); for (Row row : s) { for (Cell cell : row) { short oldXf = ((HSSFCell) cell).getCellValueRecord().getXFIndex(); // some documents contain invalid values here if (oldXf >= newPos.length) { continue; } HSSFCellStyle newStyle = workbook.getCellStyleAt(newPos[oldXf]); cell.setCellStyle(newStyle); } // adjust row column style short oldXf = ((HSSFRow) row).getRowRecord().getXFIndex(); // some documents contain invalid values here if (oldXf >= newPos.length) { continue; } HSSFCellStyle newStyle = workbook.getCellStyleAt(newPos[oldXf]); row.setRowStyle(newStyle); } // adjust cell column style for (int col = s.getSheet().getMinColumnIndex(); col <= s.getSheet().getMaxColumnIndex(); col++) { short oldXf = s.getSheet().getXFIndexForColAt((short) col); // some documents contain invalid values here if (oldXf >= newPos.length) { continue; } HSSFCellStyle newStyle = workbook.getCellStyleAt(newPos[oldXf]); s.setDefaultColumnStyle(col, newStyle); } } } private static boolean isUserDefined(HSSFWorkbook workbook, int index) { StyleRecord styleRecord = workbook.getWorkbook().getStyleRecord(index); return styleRecord != null && !styleRecord.isBuiltin() && styleRecord.getName() != null; } }