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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
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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package org.apache.poi.hssf.usermodel.examples;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.ByteArrayOutputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import org.apache.poi.hssf.usermodel.HSSFWorkbook;
import org.apache.poi.ss.util.CellReference;
import org.apache.poi.hssf.usermodel.HSSFSheet;
import org.apache.poi.hssf.usermodel.HSSFRow;
import org.apache.poi.hssf.usermodel.HSSFClientAnchor;
import org.apache.poi.hssf.usermodel.HSSFPatriarch;
import org.apache.poi.ss.usermodel.ClientAnchor.AnchorType;
/**
* Demonstrates how to add an image to a worksheet and set that image's size
* to a specific number of milimetres irrespective of the width of the columns
* or height of the rows. Overridden methods are provided so that the location
* of the image - the cells row and column co-ordinates that define the top
* left hand corners of the image - can be identified either in the familiar
* Excel manner - A1 for instance - or using POI's methodolody of a column and
* row index where 0, 0 would indicate cell A1.
*
* The best way to make use of these techniques is to delay adding the image to
* the sheet until all other work has been completed. That way, the sizes of
* all rows and columns will have been adjusted - assuming that step was
* necessary. Even though the anchors type is set to prevent the image moving
* or re-sizing, this setting does not have any effect until the sheet is being
* viewed using the Excel application.
*
* The key to the process is the HSSFClientAnchor class. It accepts eight
* parameters that define, in order;
*
* * How far - in terms of co-ordinate position - the image should be inset
* from the left hand border of a cell.
* * How far - in terms of co-ordinate positions - the image should be inset
* from the from the top of the cell.
* * How far - in terms of co-ordinate positions - the right hand edge of
* the image should protrude into a cell (measured from the cell's left hand
* edge to the image's right hand edge).
* * How far - in terms of co-ordinate positions - the bottm edge of the
* image should protrude into a row (measured from the cell's top edge to
* the image's bottom edge).
* * The index of the column that contains the cell whose top left hand
* corner should be aligned with the top left hand corner of the image.
* * The index of the row that contains the cell whose top left hand corner
* should be aligned with the image's top left hand corner.
* * The index of the column that contains the cell whose top left hand
* corner should be aligned with the image's bottom right hand corner
* * The index number of the row that contains the cell whose top left
* hand corner should be aligned with the images bottom right hand corner.
*
* It can be used to add an image into cell A1, for example, in the following
* manner;
*
* HSSFClientAnchor anchor = new HSSFClientAnchor(0, 0, 0, 0,
* (short)0, 0, (short)1, 1);
*
* The final four parameters determine that the top left hand corner should be
* aligned with the top left hand corner of cell A1 and it's bottom right
* hand corner with the top left hand corner of cell B2. Think of the image as
* being stretched so that it's top left hand corner is aligned with the top
* left hand corner of cell A1 and it's bottom right hand corner is aligned with
* the top left hand corner of cell B1. Interestingly, this would also produce
* the same results;
*
* anchor = new HSSFClientAnchor(0, 0, 1023, 255,
* (short)0, 0, (short)0, 0);
*
* Note that the final four parameters all contain the same value and seem to
* indicate that the images top left hand corner is aligned with the top left
* hand corner of cell A1 and that it's bottom right hand corner is also
* aligned with the top left hand corner of cell A1. Yet, running this code
* would see the image fully occupying cell A1. That is the result of the
* values passed to parameters three and four; these I have referred to as
* determing the images co-ordinates within the cell. They indicate that the
* image should occupy - in order - the full width of the column and the full
* height of the row.
*
* The co-ordinate values shown are the maxima; and they are independent of
* row height/column width and of the font used. Passing 255 will always result
* in the image occupying the full height of the row and passing 1023 will
* always result in the image occupying the full width of the column. They help
* in situations where an image is larger than a column/row and must overlap
* into the next column/row. Using them does mean, however, that it is often
* necessary to perform conversions between Excel's characters units, points,
* pixels and millimetres in order to establish how many rows/columns an image
* should occupy and just what the varous insets ought to be.
*
* Note that the first two parameters of the HSSFClientAchor classes constructor
* are not made use of in the code that follows. It would be fairly trivial
* however to extend these example further and provide methods that would centre
* an image within a cell or allow the user to specify that a plain border a
* fixed number of millimetres wide should wrap around the image. Those first
* two parameters would make this sort of functionality perfectly possible.
*
* Owing to the various conversions used, the actual size of the image may vary
* from that required; testing has so far found this to be in the region of
* plus or minus two millimetres. Most likely by modifying the way the
* calculations are performed - possibly using double(s) throughout and
* rounding the values at the correct point - it is likely that these errors
* could be reduced or removed.
*
* A note concerning Excels' image resizing behaviour. The HSSFClientAnchor
* class contains a method called setAnchorType(int) which can be used to
* determine how Excel will resize an image in reponse to the user increasing
* or decreasing the dimensions of the cell containing the image. There are
* three values that can be passed to this method; 0 = To move and size the
* image with the cell, 2 = To move but don't size the image with the cell,
* 3 = To prevent the image from moving or being resized along with the cell. If
* an image is inserted using this class and placed into a single cell then if
* the setAnchorType(int) method is called and a value of either 0 or 2 passed
* to it, the resultant resizing behaviour may be a surprise. The image will not
* grow in size of the column is made wider or the row higher but it will shrink
* if the columns width or rows height are reduced.
*
* @author Mark Beardsley [msb at apache.org]
* @version 1.00 5th August 2009.
*/
public class AddDimensionedImage {
// Four constants that determine how - and indeed whether - the rows
// and columns an image may overlie should be expanded to accomodate that
// image.
// Passing EXPAND_ROW will result in the height of a row being increased
// to accomodate the image if it is not already larger. The image will
// be layed across one or more columns.
// Passing EXPAND_COLUMN will result in the width of the column being
// increased to accomodate the image if it is not already larger. The image
// will be layed across one or many rows.
// Passing EXPAND_ROW_AND_COLUMN will result in the height of the row
// bing increased along with the width of the column to accomdate the
// image if either is not already larger.
// Passing OVERLAY_ROW_AND_COLUMN will result in the image being layed
// over one or more rows and columns. No row or column will be resized,
// instead, code will determine how many rows and columns the image should
// overlie.
public static final int EXPAND_ROW = 1;
public static final int EXPAND_COLUMN = 2;
public static final int EXPAND_ROW_AND_COLUMN = 3;
public static final int OVERLAY_ROW_AND_COLUMN = 7;
/**
* Add an image to a worksheet.
*
* @param cellNumber A String that contains the location of the cell whose
* top left hand corner should be aligned with the top
* left hand corner of the image; for example "A1", "A2"
* etc. This is to support the familiar Excel syntax.
* Whilst images are are not actually inserted into cells
* this provides a convenient method of indicating where
* the image should be positioned on the sheet.
* @param sheet A reference to the sheet that contains the cell referenced
* above.
* @param imageFile A String that encapsulates the name of and path to
* the image that is to be 'inserted into' the sheet.
* @param reqImageWidthMM A primitive double that contains the required
* width of the image in millimetres.
* @param reqImageHeightMM A primitive double that contains the required
* height of the image in millimetres.
* @param resizeBehaviour A primitive int whose value will determine how
* the code should react if the image is larger than
* the cell referenced by the cellNumber parameter.
* Four constants are provided to determine what
* should happen;
* AddDimensionedImage.EXPAND_ROW
* AddDimensionedImage.EXPAND_COLUMN
* AddDimensionedImage.EXPAND_ROW_AND_COLUMN
* AddDimensionedImage.OVERLAY_ROW_AND_COLUMN
* @throws java.io.FileNotFoundException If the file containing the image
* cannot be located.
* @throws java.io.IOException If a problem occurs whilst reading the file
* of image data.
* @throws java.lang.IllegalArgumentException If an invalid value is passed
* to the resizeBehaviour
* parameter.
*/
public void addImageToSheet(String cellNumber, HSSFSheet sheet,
String imageFile, double reqImageWidthMM, double reqImageHeightMM,
int resizeBehaviour) throws IOException, IllegalArgumentException {
// Convert the String into column and row indices then chain the
// call to the overridden addImageToSheet() method.
CellReference cellRef = new CellReference(cellNumber);
this.addImageToSheet(cellRef.getCol(), cellRef.getRow(), sheet,
imageFile, reqImageWidthMM, reqImageHeightMM,resizeBehaviour);
}
/**
* Add an image to a worksheet.
*
* @param colNumber A primitive int that contains the index number of a
* column on the worksheet; POI column indices are zero
* based. Together with the rowNumber parameter's value,
* this parameter identifies a cell on the worksheet. The
* image's top left hand corner will be aligned with the
* top left hand corner of this cell.
* @param rowNumber A primtive int that contains the index number of a row
* on the worksheet; POI row indices are zero based.
* Together with the rowNumber parameter's value, this
* parameter identifies a cell on the worksheet. The
* image's top left hand corner will be aligned with the
* top left hand corner of this cell.
* @param sheet A reference to the sheet that contains the cell identified
* by the two parameters above.
* @param imageFile A String that encapsulates the name of and path to
* the image that is to be 'inserted into' the sheet.
* @param reqImageWidthMM A primitive double that contains the required
* width of the image in millimetres.
* @param reqImageHeightMM A primitive double that contains the required
* height of the image in millimetres.
* @param resizeBehaviour A primitive int whose value will determine how
* the code should react if the image is larger than
* the cell referenced by the colNumber and
* rowNumber parameters. Four constants are provided
* to determine what should happen;
* AddDimensionedImage.EXPAND_ROW
* AddDimensionedImage.EXPAND_COLUMN
* AddDimensionedImage.EXPAND_ROW_AND_COLUMN
* AddDimensionedImage.OVERLAY_ROW_AND_COLUMN
* @throws java.io.FileNotFoundException If the file containing the image
* cannot be located.
* @throws java.io.IOException If a problem occurs whilst reading the file
* of image data.
* @throws java.lang.IllegalArgumentException If an invalid value is passed
* to the resizeBehaviour
* parameter.
*/
private void addImageToSheet(int colNumber, int rowNumber, HSSFSheet sheet,
String imageFile, double reqImageWidthMM, double reqImageHeightMM,
int resizeBehaviour) throws FileNotFoundException, IOException,
IllegalArgumentException {
HSSFClientAnchor anchor = null;
HSSFPatriarch patriarch = null;
ClientAnchorDetail rowClientAnchorDetail = null;
ClientAnchorDetail colClientAnchorDetail = null;
// Validate the resizeBehaviour parameter.
if((resizeBehaviour != AddDimensionedImage.EXPAND_COLUMN) &&
(resizeBehaviour != AddDimensionedImage.EXPAND_ROW) &&
(resizeBehaviour != AddDimensionedImage.EXPAND_ROW_AND_COLUMN) &&
(resizeBehaviour != AddDimensionedImage.OVERLAY_ROW_AND_COLUMN)) {
throw new IllegalArgumentException("Invalid value passed to the " +
"resizeBehaviour parameter of AddDimensionedImage.addImageToSheet()");
}
// Call methods to calculate how the image and sheet should be
// manipulated to accomodate the image; columns and then rows.
colClientAnchorDetail = this.fitImageToColumns(sheet, colNumber,
reqImageWidthMM, resizeBehaviour);
rowClientAnchorDetail = this.fitImageToRows(sheet, rowNumber,
reqImageHeightMM, resizeBehaviour);
// Having determined if and how to resize the rows, columns and/or the
// image, create the HSSFClientAnchor object to position the image on
// the worksheet. Note how the two ClientAnchorDetail records are
// interrogated to recover the row/column co-ordinates and any insets.
// The first two parameters are not used currently but could be if the
// need arose to extend the functionality of this code by adding the
// ability to specify that a clear 'border' be placed around the image.
anchor = new HSSFClientAnchor(0,
0,
colClientAnchorDetail.getInset(),
rowClientAnchorDetail.getInset(),
(short)colClientAnchorDetail.getFromIndex(),
rowClientAnchorDetail.getFromIndex(),
(short)colClientAnchorDetail.getToIndex(),
rowClientAnchorDetail.getToIndex());
// For now, set the anchor type to do not move or resize the
// image as the size of the row/column is adjusted. This could easilly
// become another parameter passed to the method.
//anchor.setAnchorType(HSSFClientAnchor.DONT_MOVE_AND_RESIZE);
anchor.setAnchorType(AnchorType.MOVE_AND_RESIZE);
// Now, add the picture to the workbook. Note that the type is assumed
// to be a JPEG/JPG, this could easily (and should) be parameterised
// however.
//int index = sheet.getWorkbook().addPicture(this.imageToBytes(imageFile),
// HSSFWorkbook.PICTURE_TYPE_JPEG);
int index = sheet.getWorkbook().addPicture(this.imageToBytes(imageFile), HSSFWorkbook.PICTURE_TYPE_PNG);
// Get the drawing patriarch and create the picture.
patriarch = sheet.createDrawingPatriarch();
patriarch.createPicture(anchor, index);
}
/**
* Determines whether the sheets columns should be re-sized to accomodate
* the image, adjusts the columns width if necessary and creates then
* returns a ClientAnchorDetail object that facilitates construction of
* an HSSFClientAnchor that will fix the image on the sheet and establish
* it's size.
*
* @param sheet A reference to the sheet that will 'contain' the image.
* @param colNumber A primtive int that contains the index number of a
* column on the sheet.
* @param reqImageWidthMM A primtive double that contains the required
* width of the image in millimetres
* @param resizeBehaviour A primitve int whose value will indicate how the
* width of the column should be adjusted if the
* required width of the image is greater than the
* width of the column.
* @return An instance of the ClientAnchorDetail class that will contain
* the index number of the column containing the cell whose top
* left hand corner also defines the top left hand corner of the
* image, the index number column containing the cell whose top
* left hand corner also defines the bottom right hand corner of
* the image and an inset that determines how far the right hand
* edge of the image can protrude into the next column - expressed
* as a specific number of co-ordinate positions.
*/
private ClientAnchorDetail fitImageToColumns(HSSFSheet sheet, int colNumber,
double reqImageWidthMM, int resizeBehaviour) {
double colWidthMM = 0.0D;
double colCoordinatesPerMM = 0.0D;
int pictureWidthCoordinates = 0;
ClientAnchorDetail colClientAnchorDetail = null;
// Get the colum's width in millimetres
colWidthMM = ConvertImageUnits.widthUnits2Millimetres(
(short)sheet.getColumnWidth(colNumber));
// Check that the column's width will accomodate the image at the
// required dimension. If the width of the column is LESS than the
// required width of the image, decide how the application should
// respond - resize the column or overlay the image across one or more
// columns.
if(colWidthMM < reqImageWidthMM) {
// Should the column's width simply be expanded?
if((resizeBehaviour == AddDimensionedImage.EXPAND_COLUMN) ||
(resizeBehaviour == AddDimensionedImage.EXPAND_ROW_AND_COLUMN)) {
// Set the width of the column by converting the required image
// width from millimetres into Excel's column width units.
sheet.setColumnWidth(colNumber,
ConvertImageUnits.millimetres2WidthUnits(reqImageWidthMM));
// To make the image occupy the full width of the column, convert
// the required width of the image into co-ordinates. This value
// will become the inset for the ClientAnchorDetail class that
// is then instantiated.
colWidthMM = reqImageWidthMM;
colCoordinatesPerMM = ConvertImageUnits.TOTAL_COLUMN_COORDINATE_POSITIONS /
colWidthMM;
pictureWidthCoordinates = (int)(reqImageWidthMM * colCoordinatesPerMM);
colClientAnchorDetail = new ClientAnchorDetail(colNumber,
colNumber, pictureWidthCoordinates);
}
// If the user has chosen to overlay both rows and columns or just
// to expand ONLY the size of the rows, then calculate how to lay
// the image out across one or more columns.
else if ((resizeBehaviour == AddDimensionedImage.OVERLAY_ROW_AND_COLUMN) ||
(resizeBehaviour == AddDimensionedImage.EXPAND_ROW)) {
colClientAnchorDetail = this.calculateColumnLocation(sheet,
colNumber, reqImageWidthMM);
}
}
// If the column is wider than the image.
else {
// Mow many co-ordinate positions are there per millimetre?
colCoordinatesPerMM = ConvertImageUnits.TOTAL_COLUMN_COORDINATE_POSITIONS /
colWidthMM;
// Given the width of the image, what should be it's co-ordinate?
pictureWidthCoordinates = (int)(reqImageWidthMM * colCoordinatesPerMM);
colClientAnchorDetail = new ClientAnchorDetail(colNumber,
colNumber, pictureWidthCoordinates);
}
return(colClientAnchorDetail);
}
/**
* Determines whether the sheet's row should be re-sized to accomodate
* the image, adjusts the rows height if necessary and creates then
* returns a ClientAnchorDetail object that facilitates construction of
* an HSSFClientAnchor that will fix the image on the sheet and establish
* it's size.
*
* @param sheet A reference to the sheet that will 'contain' the image.
* @param rowNumber A primtive int that contains the index number of a
* row on the sheet.
* @param reqImageHeightMM A primtive double that contains the required
* height of the image in millimetres
* @param resizeBehaviour A primitve int whose value will indicate how the
* height of the row should be adjusted if the
* required height of the image is greater than the
* height of the row.
* @return An instance of the ClientAnchorDetail class that will contain
* the index number of the row containing the cell whose top
* left hand corner also defines the top left hand corner of the
* image, the index number of the row containing the cell whose
* top left hand corner also defines the bottom right hand
* corner of the image and an inset that determines how far the
* bottom edge of the image can protrude into the next (lower)
* row - expressed as a specific number of co-ordinate positions.
*/
private ClientAnchorDetail fitImageToRows(HSSFSheet sheet, int rowNumber,
double reqImageHeightMM, int resizeBehaviour) {
HSSFRow row = null;
double rowHeightMM = 0.0D;
double rowCoordinatesPerMM = 0.0D;
int pictureHeightCoordinates = 0;
ClientAnchorDetail rowClientAnchorDetail = null;
// Get the row and it's height
row = sheet.getRow(rowNumber);
if(row == null) {
// Create row if it does not exist.
row = sheet.createRow(rowNumber);
}
// Get the row's height in millimetres
rowHeightMM = row.getHeightInPoints() / ConvertImageUnits.POINTS_PER_MILLIMETRE;
// Check that the row's height will accomodate the image at the required
// dimensions. If the height of the row is LESS than the required height
// of the image, decide how the application should respond - resize the
// row or overlay the image across a series of rows.
if(rowHeightMM < reqImageHeightMM) {
if((resizeBehaviour == AddDimensionedImage.EXPAND_ROW) ||
(resizeBehaviour == AddDimensionedImage.EXPAND_ROW_AND_COLUMN)) {
row.setHeightInPoints((float)(reqImageHeightMM *
ConvertImageUnits.POINTS_PER_MILLIMETRE));
rowHeightMM = reqImageHeightMM;
rowCoordinatesPerMM = ConvertImageUnits.TOTAL_ROW_COORDINATE_POSITIONS /
rowHeightMM;
pictureHeightCoordinates = (int)(reqImageHeightMM * rowCoordinatesPerMM);
rowClientAnchorDetail = new ClientAnchorDetail(rowNumber,
rowNumber, pictureHeightCoordinates);
}
// If the user has chosen to overlay both rows and columns or just
// to expand ONLY the size of the columns, then calculate how to lay
// the image out ver one or more rows.
else if((resizeBehaviour == AddDimensionedImage.OVERLAY_ROW_AND_COLUMN) ||
(resizeBehaviour == AddDimensionedImage.EXPAND_COLUMN)) {
rowClientAnchorDetail = this.calculateRowLocation(sheet,
rowNumber, reqImageHeightMM);
}
}
// Else, if the image is smaller than the space available
else {
rowCoordinatesPerMM = ConvertImageUnits.TOTAL_ROW_COORDINATE_POSITIONS /
rowHeightMM;
pictureHeightCoordinates = (int)(reqImageHeightMM * rowCoordinatesPerMM);
rowClientAnchorDetail = new ClientAnchorDetail(rowNumber,
rowNumber, pictureHeightCoordinates);
}
return(rowClientAnchorDetail);
}
/**
* If the image is to overlie more than one column, calculations need to be
* performed to determine how many columns and whether the image will
* overlie just a part of one column in order to be presented at the
* required size.
*
* @param sheet The sheet that will 'contain' the image.
* @param startingColumn A primitive int whose value is the index of the
* column that contains the cell whose top left hand
* corner should be aligned with the top left hand
* corner of the image.
* @param reqImageWidthMM A primitive double whose value will indicate the
* required width of the image in millimetres.
* @return An instance of the ClientAnchorDetail class that will contain
* the index number of the column containing the cell whose top
* left hand corner also defines the top left hand corner of the
* image, the index number column containing the cell whose top
* left hand corner also defines the bottom right hand corner of
* the image and an inset that determines how far the right hand
* edge of the image can protrude into the next column - expressed
* as a specific number of co-ordinate positions.
*/
private ClientAnchorDetail calculateColumnLocation(HSSFSheet sheet,
int startingColumn,
double reqImageWidthMM) {
ClientAnchorDetail anchorDetail = null;
double totalWidthMM = 0.0D;
double colWidthMM = 0.0D;
double overlapMM = 0.0D;
double coordinatePositionsPerMM = 0.0D;
int toColumn = startingColumn;
int inset = 0;
// Calculate how many columns the image will have to
// span in order to be presented at the required size.
while(totalWidthMM < reqImageWidthMM) {
colWidthMM = ConvertImageUnits.widthUnits2Millimetres(
(short)(sheet.getColumnWidth(toColumn)));
// Note use of the cell border width constant. Testing with an image
// declared to fit exactly into one column demonstrated that it's
// width was greater than the width of the column the POI returned.
// Further, this difference was a constant value that I am assuming
// related to the cell's borders. Either way, that difference needs
// to be allowed for in this calculation.
totalWidthMM += (colWidthMM + ConvertImageUnits.CELL_BORDER_WIDTH_MILLIMETRES);
toColumn++;
}
// De-crement by one the last column value.
toColumn--;
// Highly unlikely that this will be true but, if the width of a series
// of columns is exactly equal to the required width of the image, then
// simply build a ClientAnchorDetail object with an inset equal to the
// total number of co-ordinate positions available in a column, a
// from column co-ordinate (top left hand corner) equal to the value
// of the startingColumn parameter and a to column co-ordinate equal
// to the toColumn variable.
//
// Convert both values to ints to perform the test.
if((int)totalWidthMM == (int)reqImageWidthMM) {
// A problem could occur if the image is sized to fit into one or
// more columns. If that occurs, the value in the toColumn variable
// will be in error. To overcome this, there are two options, to
// ibcrement the toColumn variable's value by one or to pass the
// total number of co-ordinate positions to the third paramater
// of the ClientAnchorDetail constructor. For no sepcific reason,
// the latter option is used below.
anchorDetail = new ClientAnchorDetail(startingColumn,
toColumn, ConvertImageUnits.TOTAL_COLUMN_COORDINATE_POSITIONS);
}
// In this case, the image will overlap part of another column and it is
// necessary to calculate just how much - this will become the inset
// for the ClientAnchorDetail object.
else {
// Firstly, claculate how much of the image should overlap into
// the next column.
overlapMM = reqImageWidthMM - (totalWidthMM - colWidthMM);
// When the required size is very close indded to the column size,
// the calcaulation above can produce a negative value. To prevent
// problems occuring in later caculations, this is simply removed
// be setting the overlapMM value to zero.
if(overlapMM < 0) {
overlapMM = 0.0D;
}
// Next, from the columns width, calculate how many co-ordinate
// positons there are per millimetre
coordinatePositionsPerMM = ConvertImageUnits.TOTAL_COLUMN_COORDINATE_POSITIONS /
colWidthMM;
// From this figure, determine how many co-ordinat positions to
// inset the left hand or bottom edge of the image.
inset = (int)(coordinatePositionsPerMM * overlapMM);
// Now create the ClientAnchorDetail object, setting the from and to
// columns and the inset.
anchorDetail = new ClientAnchorDetail(startingColumn, toColumn, inset);
}
return(anchorDetail);
}
/**
* If the image is to overlie more than one rows, calculations need to be
* performed to determine how many rows and whether the image will
* overlie just a part of one row in order to be presented at the
* required size.
*
* @param sheet The sheet that will 'contain' the image.
* @param startingRow A primitive int whose value is the index of the row
* that contains the cell whose top left hand corner
* should be aligned with the top left hand corner of
* the image.
* @param reqImageHeightMM A primitive double whose value will indicate the
* required height of the image in millimetres.
* @return An instance of the ClientAnchorDetail class that will contain
* the index number of the row containing the cell whose top
* left hand corner also defines the top left hand corner of the
* image, the index number of the row containing the cell whose top
* left hand corner also defines the bottom right hand corner of
* the image and an inset that determines how far the bottom edge
* can protrude into the next (lower) row - expressed as a specific
* number of co-ordinate positions.
*/
private ClientAnchorDetail calculateRowLocation(HSSFSheet sheet,
int startingRow, double reqImageHeightMM) {
ClientAnchorDetail clientAnchorDetail = null;
HSSFRow row = null;
double rowHeightMM = 0.0D;
double totalRowHeightMM = 0.0D;
double overlapMM = 0.0D;
double rowCoordinatesPerMM = 0.0D;
int toRow = startingRow;
int inset = 0;
// Step through the rows in the sheet and accumulate a total of their
// heights.
while(totalRowHeightMM < reqImageHeightMM) {
row = sheet.getRow(toRow);
// Note, if the row does not already exist on the sheet then create
// it here.
if(row == null) {
row = sheet.createRow(toRow);
}
// Get the row's height in millimetres and add to the running total.
rowHeightMM = row.getHeightInPoints() /
ConvertImageUnits.POINTS_PER_MILLIMETRE;
totalRowHeightMM += rowHeightMM;
toRow++;
}
// Owing to the way the loop above works, the rowNumber will have been
// incremented one row too far. Undo that here.
toRow--;
// Check to see whether the image should occupy an exact number of
// rows. If so, build the ClientAnchorDetail record to point
// to those rows and with an inset of the total number of co-ordinate
// position in the row.
//
// To overcome problems that can occur with comparing double values for
// equality, cast both to int(s) to truncate the value; VERY crude and
// I do not really like it!!
if((int)totalRowHeightMM == (int)reqImageHeightMM) {
clientAnchorDetail = new ClientAnchorDetail(startingRow, toRow,
ConvertImageUnits.TOTAL_ROW_COORDINATE_POSITIONS);
}
else {
// Calculate how far the image will project into the next row. Note
// that the height of the last row assessed is subtracted from the
// total height of all rows assessed so far.
overlapMM = reqImageHeightMM - (totalRowHeightMM - rowHeightMM);
// To prevent an exception being thrown when the required width of
// the image is very close indeed to the column size.
if(overlapMM < 0) {
overlapMM = 0.0D;
}
rowCoordinatesPerMM = ConvertImageUnits.TOTAL_ROW_COORDINATE_POSITIONS /
rowHeightMM;
inset = (int)(overlapMM * rowCoordinatesPerMM);
clientAnchorDetail = new ClientAnchorDetail(startingRow,
toRow, inset);
}
return(clientAnchorDetail);
}
/**
* Loads - reads in and converts into an array of byte(s) - an image from
* a named file.
*
* Note: this method should be modified so that the type of the image may
* also be passed to it. Currently, it assumes that all images are
* JPG/JPEG(s).
*
* @param imageFilename A String that encapsulates the path to and name
* of the file that contains the image which is to be
* 'loaded'.
* @return An array of type byte that contains the raw data of the named
* image.
* @throws java.io.FileNotFoundException Thrown if it was not possible to
* open the specified file.
* @throws java.io.IOException Thrown if reading the file failed or was
* interrupted.
*/
private byte[] imageToBytes(String imageFilename) throws IOException {
File imageFile = null;
FileInputStream fis = null;
ByteArrayOutputStream bos = null;
int read = 0;
try {
imageFile = new File(imageFilename);
fis = new FileInputStream(imageFile);
bos = new ByteArrayOutputStream();
while((read = fis.read()) != -1) {
bos.write(read);
}
return(bos.toByteArray());
}
finally {
if(fis != null) {
try {
fis.close();
fis = null;
}
catch(IOException ioEx) {
// Nothing to do here
}
}
}
}
/**
* The main entry point to the program. It contains code that demonstrates
* one way to use the program.
*
* Note, the code is not restricted to use on new workbooks only. If an
* image is to be inserted into an existing workbook. just open that
* workbook, gat a reference to a sheet and pass that;
*
* AddDimensionedImage addImage = new AddDimensionedImage();
*
* File file = new File("....... Existing Workbook .......");
* FileInputStream fis = new FileInputStream(file);
* HSSFWorkbook workbook = new HSSFWorkbook(fis);
* HSSFSheet sheet = workbook.getSheetAt(0);
* addImage.addImageToSheet("C3", sheet, "image.jpg", 30, 20,
* AddDimensionedImage.EXPAND.ROW);
*
* @param args the command line arguments
*/
public static void main(String[] args) {
String imageFile = null;
String outputFile = null;
FileOutputStream fos = null;
HSSFSheet sheet = null;
try {
if(args.length < 2){
System.err.println("Usage: AddDimensionedImage imageFile outputFile");
return;
}
imageFile = args[0];
outputFile = args[1];
HSSFWorkbook workbook = new HSSFWorkbook();
try {
sheet = workbook.createSheet("Picture Test");
new AddDimensionedImage().addImageToSheet("A1", sheet,
imageFile, 125, 125,
AddDimensionedImage.EXPAND_ROW_AND_COLUMN);
fos = new FileOutputStream(outputFile);
workbook.write(fos);
} finally {
workbook.close();
}
}
catch(FileNotFoundException fnfEx) {
System.out.println("Caught an: " + fnfEx.getClass().getName());
System.out.println("Message: " + fnfEx.getMessage());
System.out.println("Stacktrace follows...........");
fnfEx.printStackTrace(System.out);
}
catch(IOException ioEx) {
System.out.println("Caught an: " + ioEx.getClass().getName());
System.out.println("Message: " + ioEx.getMessage());
System.out.println("Stacktrace follows...........");
ioEx.printStackTrace(System.out);
}
finally {
try {
if(fos != null) {
fos.close();
fos = null;
}
} catch(IOException ioEx) {
// I G N O R E
}
}
}
/**
* The HSSFClientAnchor class accepts eight parameters. In order, these are;
*
* * How far the left hand edge of the image is inset from the left hand
* edge of the cell
* * How far the top edge of the image is inset from the top of the cell
* * How far the right hand edge of the image is inset from the left
* hand edge of the cell
* * How far the bottom edge of the image is inset from the top of the
* cell.
* * Together, parameters five and six determine the column and row
* co-ordinates of the cell whose top left hand corner will be aligned
* with the image's top left hand corner.
* * Together, parameter seven and eight determine the column and row
* co-ordinates of the cell whose top left hand corner will be aligned
* with the images bottom right hand corner.
*
* An instance of the ClientAnchorDetail class provides three of the eight
* parameters, one of the co-ordinates for the images top left hand corner,
* one of the co-ordinates for the images bottom right hand corner and
* either how far the image should be inset from the top or the left hand
* edge of the cell.
*
* @author Mark Beardsley [mas at apache.org]
* @version 1.00 5th August 2009.
*/
public class ClientAnchorDetail {
public int fromIndex = 0;
public int toIndex = 0;
public int inset = 0;
/**
* Create a new instance of the ClientAnchorDetail class using the
* following parameters.
*
* @param fromIndex A primitive int that contains one of the
* co-ordinates (row or column index) for the top left
* hand corner of the image.
* @param toIndex A primitive int that contains one of the
* co-ordinates (row or column index) for the bottom
* right hand corner of the image.
* @param inset A primitive int that contains a value which indicates
* how far the image should be inset from the top or the
* left hand edge of a cell.
*/
public ClientAnchorDetail(int fromIndex, int toIndex, int inset) {
this.fromIndex = fromIndex;
this.toIndex = toIndex;
this.inset = inset;
}
/**
* Get one of the number of the column or row that contains the cell
* whose top left hand corner will be aligned with the top left hand
* corner of the image.
*
* @return The value - row or column index - for one of the co-ordinates
* of the top left hand corner of the image.
*/
public int getFromIndex() {
return(this.fromIndex);
}
/**
* Get one of the number of the column or row that contains the cell
* whose top left hand corner will be aligned with the bottom righ hand
* corner of the image.
*
* @return The value - row or column index - for one of the co-ordinates
* of the bottom right hand corner of the image.
*/
public int getToIndex() {
return(this.toIndex);
}
/**
* Get the image's offset from the edge of a cell.
*
* @return How far either the right hand or bottom edge of the image is
* inset from the left hand or top edge of a cell.
*/
public int getInset() {
return(this.inset);
}
}
/**
* Utility methods used to convert Excel's character based column and row
* size measurements into pixels and/or millimetres. The class also contains
* various constants that are required in other calculations.
*
* @author xio[[email protected]]
* @version 1.01 30th July 2009.
* Added by Mark Beardsley [msb at apache.org].
* Additional constants.
* widthUnits2Millimetres() and millimetres2Units() methods.
*/
public static class ConvertImageUnits {
// Each cell conatins a fixed number of co-ordinate points; this number
// does not vary with row height or column width or with font. These two
// constants are defined below.
public static final int TOTAL_COLUMN_COORDINATE_POSITIONS = 1023; // MB
public static final int TOTAL_ROW_COORDINATE_POSITIONS = 255; // MB
// The resoultion of an image can be expressed as a specific number
// of pixels per inch. Displays and printers differ but 96 pixels per
// inch is an acceptable standard to beging with.
public static final int PIXELS_PER_INCH = 96; // MB
// Cnstants that defines how many pixels and points there are in a
// millimetre. These values are required for the conversion algorithm.
public static final double PIXELS_PER_MILLIMETRES = 3.78; // MB
public static final double POINTS_PER_MILLIMETRE = 2.83; // MB
// The column width returned by HSSF and the width of a picture when
// positioned to exactly cover one cell are different by almost exactly
// 2mm - give or take rounding errors. This constant allows that
// additional amount to be accounted for when calculating how many
// celles the image ought to overlie.
public static final double CELL_BORDER_WIDTH_MILLIMETRES = 2.0D; // MB
public static final short EXCEL_COLUMN_WIDTH_FACTOR = 256;
public static final int UNIT_OFFSET_LENGTH = 7;
public static final int[] UNIT_OFFSET_MAP = new int[]
{ 0, 36, 73, 109, 146, 182, 219 };
/**
* pixel units to excel width units(units of 1/256th of a character width)
* @param pxs
* @return
*/
public static short pixel2WidthUnits(int pxs) {
short widthUnits = (short) (EXCEL_COLUMN_WIDTH_FACTOR *
(pxs / UNIT_OFFSET_LENGTH));
widthUnits += UNIT_OFFSET_MAP[(pxs % UNIT_OFFSET_LENGTH)];
return widthUnits;
}
/**
* excel width units(units of 1/256th of a character width) to pixel
* units.
*
* @param widthUnits
* @return
*/
public static int widthUnits2Pixel(short widthUnits) {
int pixels = (widthUnits / EXCEL_COLUMN_WIDTH_FACTOR)
* UNIT_OFFSET_LENGTH;
int offsetWidthUnits = widthUnits % EXCEL_COLUMN_WIDTH_FACTOR;
pixels += Math.round(offsetWidthUnits /
((float) EXCEL_COLUMN_WIDTH_FACTOR / UNIT_OFFSET_LENGTH));
return pixels;
}
/**
* Convert Excel's width units into millimetres.
*
* @param widthUnits The width of the column or the height of the
* row in Excel's units.
* @return A primitive double that contains the columns width or rows
* height in millimetres.
*/
public static double widthUnits2Millimetres(short widthUnits) {
return(ConvertImageUnits.widthUnits2Pixel(widthUnits) /
ConvertImageUnits.PIXELS_PER_MILLIMETRES);
}
/**
* Convert into millimetres Excel's width units..
*
* @param millimetres A primitive double that contains the columns
* width or rows height in millimetres.
* @return A primitive int that contains the columns width or rows
* height in Excel's units.
*/
public static int millimetres2WidthUnits(double millimetres) {
return(ConvertImageUnits.pixel2WidthUnits((int)(millimetres *
ConvertImageUnits.PIXELS_PER_MILLIMETRES)));
}
}
}
