/************************************************************************* * * The Contents of this file are made available subject to the terms of * the BSD license. * * Copyright 2000, 2010 Oracle and/or its affiliates. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of Sun Microsystems, Inc. nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE * USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * *************************************************************************/ import com.sun.star.lib.uno.helper.Factory; import com.sun.star.lang.XInitialization; import com.sun.star.lang.XMultiComponentFactory; import com.sun.star.lang.XSingleComponentFactory; import com.sun.star.lang.XMultiServiceFactory; import com.sun.star.lang.XServiceInfo; import com.sun.star.lang.XTypeProvider; import com.sun.star.lib.uno.helper.WeakBase; import com.sun.star.registry.XRegistryKey; import com.sun.star.uno.Type; import com.sun.star.uno.UnoRuntime; import com.sun.star.uno.XInterface; import com.sun.star.uno.XWeak; import com.sun.star.uno.XComponentContext; import org.openoffice.*; // addintional interfaces used by the implementation import com.sun.star.sheet.XSpreadsheetDocument; import com.sun.star.sheet.XSpreadsheet; import com.sun.star.sheet.XCellRangeMovement; import com.sun.star.sheet.XFunctionAccess; import com.sun.star.container.XIndexAccess; import com.sun.star.table.XCellRange; import com.sun.star.table.XCell; import com.sun.star.table.CellAddress; import com.sun.star.table.CellRangeAddress; import com.sun.star.table.XColumnRowRange; import com.sun.star.table.XTableRows; import com.sun.star.beans.XPropertySet; import com.sun.star.text.XTextRange; import com.sun.star.text.XSimpleText; import com.sun.star.text.XTextCursor; import com.sun.star.text.XText; import com.sun.star.text.XTextField; import java.util.GregorianCalendar; import java.util.Calendar; import java.util.Vector; import java.util.Arrays; /** This class capsulates the class, that implements the minimal component, a * factory for creating the service (__getServiceFactory) and a * method, that writes the information into the given registry key * (__writeRegistryServiceInfo). */ public class ToDo { /** This class implements the component. At least the interfaces * XInterface, XTypeProvider, and XWeak implemented by the helper class * WeakBase and XServiceInfo should be provided by the service. */ public static class ToDoImpl extends WeakBase implements XServiceInfo, XToDo { /** The service name, that must be used to get an instance of this service. */ private static final String __serviceName = "org.openoffice.ToDo"; /** The initial component contextr, that gives access to * the service manager, supported singletons, ... * It's often later used */ private XComponentContext m_cmpCtx; /** The service manager, that gives access to all registered services. * It's often later used */ private XMultiComponentFactory m_xMCF; // Implementation helper variables static private final int INT_COLUMN_FEATURE = 0; static private final int INT_COLUMN_COMMENT = 1; static private final int INT_COLUMN_NEEDEDDAYS = 2; static private final int INT_COLUMN_STARTDATE = 3; static private final int INT_COLUMN_START_DAY_OF_WEEK = 4; static private final int INT_COLUMN_ENDDATE = 5; static private final int INT_COLUMN_END_DAY_OF_WEEK = 6; static private final int INT_COLUMN_DUEDATE = 7; static private final int INT_COLUMN_STATUS = 8; static private final int INT_ROW_FROM = 14; // 8 static private final int INT_ROW_HOLIDAYS_START = 4; static private final int INT_COLUMN_HOLIDAYS_START = 7; // 10 static private final String STRING_SEPARATOR = "/"; /** The constructor of the inner class has a XComponenContext parameter. * @param xCompContext the initial component context */ public ToDoImpl(XComponentContext xCompContext) { try { m_cmpCtx = xCompContext; m_xMCF = m_cmpCtx.getServiceManager(); } catch( Exception e ) { e.printStackTrace(System.err); } } /** This method returns an array of all supported service names. * @return Array of supported service names. */ public String[] getSupportedServiceNames() { return getServiceNames(); } public static String[] getServiceNames() { String[] sSupportedServiceNames = { __serviceName }; return sSupportedServiceNames; } /** This method returns true, if the given service will be * supported by the component. * @param sService Service name. * @return True, if the given service name will be supported. */ public boolean supportsService(String sServiceName) { return sServiceName.equals( __serviceName ); } /** Return the class name of the component. * @return Class name of the component. */ public String getImplementationName() { return ToDoImpl.class.getName(); } /** For every bug/feature listed in a spreadsheet document this method * calculates the start date, day of week of the start date, the end date * and the day of week of the end date. All calculations are dependent * on the values of "Needed Days", "Due Date" and "Status". The columns * "Needed Days" and "Status" are mandatory. The first feature/bug should * be placed in row nine. The date to start the calculation should be * placed in cell C6. The private holidays should be placed in cell K4/K5 * and below. All rows will be calculated up to the first empty cell in * the first column. If a cell in the column "Due Date" will be colored * red, you should take a look at your entries. * @param aInstance Spreadsheet document. * @throws com.sun.star.uno.RuntimeException This exception could occur * at every interface method. */ public void recalc( java.lang.Object aInstance ) throws com.sun.star.uno.RuntimeException { try { // Querying for the interface XSpreadsheetDocument XSpreadsheetDocument xspreadsheetdocument = ( XSpreadsheetDocument ) UnoRuntime.queryInterface( XSpreadsheetDocument.class, aInstance ); // Querying for the interface XIndexAccess XIndexAccess xindexaccess = ( XIndexAccess ) UnoRuntime.queryInterface( XIndexAccess.class, xspreadsheetdocument.getSheets() ); // Getting the first XSpreadsheet XSpreadsheet xspreadsheet = (XSpreadsheet)UnoRuntime.queryInterface( XSpreadsheet.class, xindexaccess.getByIndex( 0 )); // Querying for the interface XCellRange on the XSpeadsheet XCellRange xcellrange = ( XCellRange ) UnoRuntime.queryInterface( XCellRange.class, xspreadsheet ); /* Getting the gregorian calendar with the date on which to start the calculation */ GregorianCalendar gregCalAbsoluteStartDate = this.getGregorianCalendarFromString(this.getStringFromCell( xcellrange, 5, 2 ) ); gregCalAbsoluteStartDate.add( Calendar.DATE, -1 ); // Set the start date with the absolute start date GregorianCalendar gregCalStartDate = (GregorianCalendar) gregCalAbsoluteStartDate.clone(); /* Creating the service FunctionAccess, which allows generic access to all spreadsheet functions */ Object objectFunctionAccess = m_xMCF.createInstanceWithContext( "com.sun.star.sheet.FunctionAccess", m_cmpCtx ); // Querying for the interface XFunctionAccess on service // FunctionAccess XFunctionAccess xfunctionaccess = (XFunctionAccess) UnoRuntime.queryInterface(XFunctionAccess.class, objectFunctionAccess ); // Creating vector for holidays Vector vectorHolidays = new Vector(); // Get the Official Holidays this.getOfficialHolidays( vectorHolidays, xcellrange, xfunctionaccess, gregCalStartDate.get( Calendar.YEAR ) ); // Get the private holidays this.getPrivateHolidays(vectorHolidays, xcellrange, xfunctionaccess); // Getting the object array of holidays Object[] objectSortedHolidays = vectorHolidays.toArray(); // Sorting the holidays Arrays.sort( objectSortedHolidays ); // Collect the Official Holidays and the private holidays Object [][]objectHolidays = new Object[][] { objectSortedHolidays }; // Row index int intRowTo = this.INT_ROW_FROM - 1; // Getting the feature of the first cell String sFeature = this.getStringFromCell(xcellrange, intRowTo + 1, this.INT_COLUMN_FEATURE); // Determine the last row with an entry in the first column while ( ( sFeature != null ) && ( !sFeature.equals( "" ) ) ) { intRowTo++; sFeature = this.getStringFromCell( xcellrange, intRowTo + 1, this.INT_COLUMN_FEATURE ); } // Setting the last row to be calculated final int INT_ROW_TO = intRowTo + 1; // Deleting cells which will be recalculated for ( int intRow = this.INT_ROW_FROM; intRow < INT_ROW_TO + 5; intRow++ ) { for ( int intColumn = this.INT_COLUMN_STARTDATE; intColumn <= this.INT_COLUMN_END_DAY_OF_WEEK; intColumn++ ) { this.setStringToCell(xcellrange, intRow, intColumn, ""); } } /* Clearing the background color of the due date cells and setting the hyperlink to the bugtracker */ for (int intRow = this.INT_ROW_FROM; intRow < INT_ROW_TO; intRow++) { // Querying for the interface XPropertySet for the cell // providing the due date XPropertySet xpropertyset = ( XPropertySet ) UnoRuntime.queryInterface(XPropertySet.class, xcellrange.getCellByPosition( this.INT_COLUMN_DUEDATE, intRow )); // Changing the background color of the cell to white xpropertyset.setPropertyValue( "CellBackColor", new Integer( 16777215 ) ); // Getting the cell of the bug id XCell xcell = xcellrange.getCellByPosition( this.INT_COLUMN_FEATURE, intRow ); // Querying for the interface XSimpleText XSimpleText xsimpletext = ( XSimpleText ) UnoRuntime.queryInterface( XSimpleText.class, xcell ); // Getting the text cursor XTextCursor xtextcursor = xsimpletext.createTextCursor(); // Querying for the interface XTextRange XTextRange xtextrange = ( XTextRange ) UnoRuntime.queryInterface( XTextRange.class, xtextcursor ); // Getting the bug ID from the cell String sBugID = xtextrange.getString(); if ( !sBugID.startsWith( "http://www.openoffice.org/issues/show_bug.cgi?id=") ) { String sBugIDLink = "http://www.openoffice.org/issues/show_bug.cgi?id=" + sBugID; // Querying for the interface XMultiServiceFactory XMultiServiceFactory xMSFTextField = (XMultiServiceFactory)UnoRuntime.queryInterface( XMultiServiceFactory.class, aInstance ); // Creating an instance of the text field URL Object objectTextField = xMSFTextField.createInstance( "com.sun.star.text.TextField.URL" ); // Querying for the interface XTextField XTextField xtextfield = ( XTextField ) UnoRuntime.queryInterface( XTextField.class, objectTextField ); // Querying for the interface XPropertySet XPropertySet xpropertysetTextField = ( XPropertySet ) UnoRuntime.queryInterface( XPropertySet.class, xtextfield ); // Setting the URL xpropertysetTextField.setPropertyValue( "URL", sBugIDLink ); // Setting the representation of the URL xpropertysetTextField.setPropertyValue( "Representation", sBugID ); // Querying for the interface XText XText xtext = ( XText )UnoRuntime.queryInterface( XText.class, xcell ); // Delete cell content xtextrange.setString( "" ); // Inserting the text field URL to the cell xtext.insertTextContent( xtextrange, xtextfield, false ); } } // Processing all features/bugs in the table for (int intRow = this.INT_ROW_FROM; intRow < INT_ROW_TO; intRow++) { // Getting the cell of the column "Needed Days" in the // current row XCell xcell = xcellrange.getCellByPosition( INT_COLUMN_NEEDEDDAYS, intRow ); // Getting the number of needed days to perform the feature int intNeededDays = (int) Math.round( xcell.getValue() ); // Getting the content of a specified cell String sStatus = this.getStringFromCell( xcellrange, intRow, this.INT_COLUMN_STATUS ); /* Testing if the number of needed days is greater than zero and if the status is not "done" */ if ( ( intNeededDays > 0 ) && !( sStatus.toLowerCase().trim().equals("done")) ) { // Getting the start date after a specified number of // workdays gregCalStartDate = this.getWorkday( gregCalStartDate, 1, objectHolidays, xfunctionaccess ); // Getting a string with the date format jjjj-mm-dd from // the gregorian calendar String sDate = this.getStringFromGregorianCalendar( gregCalStartDate ); // Set the start date in the specified cell of the table this.setStringToCell(xcellrange, intRow, this.INT_COLUMN_STARTDATE, sDate); // For the start day set the day of week in the specified // cell of the table this.setDayOfWeek( gregCalStartDate, xcellrange, intRow, this.INT_COLUMN_START_DAY_OF_WEEK ); // Getting the end date after a specified number of workdays GregorianCalendar gregCalEndDate = this.getWorkday( gregCalStartDate, intNeededDays - 1, objectHolidays, xfunctionaccess ); // Creating a string with the date format jjjj-mm-dd sDate = this.getStringFromGregorianCalendar( gregCalEndDate ); // Set the end date in the specified cell of the table this.setStringToCell( xcellrange, intRow, this.INT_COLUMN_ENDDATE, sDate ); // For the end day set the day of week in the specified // cell of the table this.setDayOfWeek(gregCalEndDate, xcellrange, intRow, this.INT_COLUMN_END_DAY_OF_WEEK); // Set the initial date for the next loop gregCalStartDate = ( GregorianCalendar ) gregCalEndDate.clone(); // Get the due date from the table String sDueDate = this.getStringFromCell( xcellrange, intRow, this.INT_COLUMN_DUEDATE ); // Testing if the due date is not empty if ( !sDueDate.equals( "" ) ) { GregorianCalendar gregCalDueDate = this.getGregorianCalendarFromString(sDueDate); // Testing if the due date is before the calculated // end date if ( gregCalDueDate.before( gregCalEndDate ) ) { /* Getting the date when the processing of the feature/bug should be started at the latest */ GregorianCalendar gregCalLatestDateToStart = this.getWorkday(gregCalDueDate, -( intNeededDays - 1 ), objectHolidays, xfunctionaccess); // Begin with the current row int intRowToInsert = intRow; // Get the start date for the feature/bug in the // current row GregorianCalendar gregCalPreviousStartDate = this.getGregorianCalendarFromString( this.getStringFromCell( xcellrange, intRowToInsert, this.INT_COLUMN_STARTDATE ) ); // Testing if we have to search for an earlier date // to begin while ((gregCalLatestDateToStart.before( gregCalPreviousStartDate)) && (INT_ROW_FROM != intRowToInsert)) { // Decrease the row intRowToInsert--; // Get the start date for the feature/bug in // the current row String sStartDate = this.getStringFromCell( xcellrange, intRowToInsert, this.INT_COLUMN_STARTDATE ); // Search until a valid start date is found while ( sStartDate.equals( "" ) ) { // Decrease the row intRowToInsert--; // Get the start date for the feature/bug // in the current row sStartDate = this.getStringFromCell( xcellrange, intRowToInsert, this.INT_COLUMN_STARTDATE ); } // Get the GregorianCalender format for the // start date gregCalPreviousStartDate = this.getGregorianCalendarFromString( sStartDate ); } // Getting the cell of the column "Needed Days" // in the row where to insert XCell xcellNeededDaysWhereToInsert = xcellrange.getCellByPosition( INT_COLUMN_NEEDEDDAYS, intRowToInsert ); // Getting the number of needed days to perform // the feature int intNeededDaysWhereToInsert = (int) Math.round( xcellNeededDaysWhereToInsert.getValue()); GregorianCalendar gregCalPreviousNewEndDate = this.getWorkday(gregCalPreviousStartDate, intNeededDays - 1 + intNeededDaysWhereToInsert, objectHolidays, xfunctionaccess); String sPreviousDueDate = this.getStringFromCell( xcellrange, intRowToInsert, this.INT_COLUMN_DUEDATE ); GregorianCalendar gregCalPreviousDueDate = null; if ( !sPreviousDueDate.equals( "" ) ) { gregCalPreviousDueDate = this.getGregorianCalendarFromString( sPreviousDueDate ); } if ( ( intRowToInsert == intRow ) || ( gregCalPreviousNewEndDate.after( gregCalPreviousDueDate ) ) ) { // Querying for the interface XPropertySet for // the cell providing the due date XPropertySet xpropertyset = ( XPropertySet ) UnoRuntime.queryInterface( XPropertySet.class, xcellrange.getCellByPosition( this.INT_COLUMN_DUEDATE, intRow ) ); // Changing the background color of the cell // to red xpropertyset.setPropertyValue( "CellBackColor", new Integer( 16711680 ) ); } else { // Querying for the interface XColumnRowRange // on the XCellRange XColumnRowRange xcolumnrowrange = ( XColumnRowRange)UnoRuntime.queryInterface( XColumnRowRange.class, xcellrange ); // Inserting one row to the table XTableRows xTableRows = xcolumnrowrange.getRows(); xTableRows.insertByIndex( intRowToInsert, 1 ); // Querying for the interface // XCellRangeMovement on XCellRange XCellRangeMovement xcellrangemovement = (XCellRangeMovement)UnoRuntime.queryInterface( XCellRangeMovement.class, xcellrange ); // Creating the cell address of the destination CellAddress celladdress = new CellAddress(); celladdress.Sheet = 0; celladdress.Column = 0; celladdress.Row = intRowToInsert; // Creating the cell range of the source CellRangeAddress cellrangeaddress = new CellRangeAddress(); cellrangeaddress.Sheet = 0; cellrangeaddress.StartColumn = 0; cellrangeaddress.StartRow = intRow + 1; cellrangeaddress.EndColumn = 8; cellrangeaddress.EndRow = intRow + 1; // Moves the cell range to another position in // the document xcellrangemovement.moveRange(celladdress, cellrangeaddress); // Removing the row not needed anymore xcolumnrowrange.getRows().removeByIndex(intRow + 1, 1); // Set the current row, because we want to // recalculate all rows below intRow = intRowToInsert - 1; // Tests at which line we want to insert if ( intRow >= this.INT_ROW_FROM ) { // Get the start date gregCalStartDate = this.getGregorianCalendarFromString( this.getStringFromCell( xcellrange, intRow,this.INT_COLUMN_ENDDATE)); } else { // Set the start date with the absolute s // tart date gregCalStartDate = (GregorianCalendar) gregCalAbsoluteStartDate.clone(); } } } } } } } catch( Exception exception ) { showExceptionMessage( exception ); } } /** Getting a string from a gregorian calendar. * @param gregCal Date to be converted. * @return string (converted gregorian calendar). */ public String getStringFromGregorianCalendar( GregorianCalendar gregCal ) { String sDate = ( gregCal.get( Calendar.MONTH ) + 1 ) + STRING_SEPARATOR + gregCal.get( Calendar.DATE ) // + STRING_SEPARATOR + ( gregCal.get( Calendar.MONTH ) + 1 ) + STRING_SEPARATOR + gregCal.get( Calendar.YEAR ); return sDate; } /** Getting a GregorianCalendar from a string. * @param sDate String to be converted. * @return The result of the converting of the string. */ public GregorianCalendar getGregorianCalendarFromString( String sDate ) { int []intDateValue = this.getDateValuesFromString( sDate ); return( new GregorianCalendar( intDateValue[ 2 ], intDateValue[ 0 ], intDateValue[ 1 ] ) ); } /** Getting the day, month and year from a string. * @param sDate String to be parsed. * @return Returns an array of integer variables. */ public int[] getDateValuesFromString( String sDate) { int[] intDateValues = new int[ 3 ]; int intPositionFirstTag = sDate.indexOf( STRING_SEPARATOR ); int intPositionSecondTag = sDate.indexOf(STRING_SEPARATOR, intPositionFirstTag + 1); // Getting the value of the month intDateValues[ 0 ] = Integer.parseInt( sDate.substring(0, intPositionFirstTag)) - 1; // Getting the value of the day intDateValues[ 1 ] = Integer.parseInt( sDate.substring(intPositionFirstTag + 1, intPositionSecondTag)); // Getting the value of the year intDateValues[ 2 ] = Integer.parseInt( sDate.substring(intPositionSecondTag + 1, sDate.length())); return intDateValues; } /** Getting a content from a specified cell. * @param xcellrange Providing access to cells. * @param intRow Number of row. * @param intColumn Number of column. * @return String from the specified cell. */ public String getStringFromCell( XCellRange xcellrange, int intRow, int intColumn ) { XTextRange xtextrangeStartDate = null; try { // Getting the cell holding the information about the start date XCell xcellStartDate = xcellrange.getCellByPosition(intColumn, intRow); // Querying for the interface XTextRange on the XCell xtextrangeStartDate = (XTextRange) UnoRuntime.queryInterface(XTextRange.class, xcellStartDate); } catch( Exception exception ) { this.showExceptionMessage( exception ); } // Getting the start date return xtextrangeStartDate.getString().trim(); } /** Writing a specified string to a specified cell. * @param xcellrange Providing access to the cells. * @param intRow Number of row. * @param intColumn Number of column. * @param sDate Date to write to the cell. */ public void setStringToCell( XCellRange xcellrange, int intRow, int intColumn, String sDate ) { try { // Getting the cell holding the information on the day to start XCell xcellStartDate = xcellrange.getCellByPosition(intColumn, intRow); // Querying for the interface XTextRange on the XCell XTextRange xtextrange = (XTextRange) UnoRuntime.queryInterface(XTextRange.class, xcellStartDate); // Setting the new start date xtextrange.setString( sDate ); } catch( Exception exception ) { this.showExceptionMessage( exception ); } } /** Calculates the week of day and calls the method "setStringToCell". * @param gregCal Day to be written to the cell. * @param xcellrange Providing access to the cells. * @param intRow Number of row. * @param intColumn Number of column. */ public void setDayOfWeek( GregorianCalendar gregCal, XCellRange xcellrange, int intRow, int intColumn) { int intDayOfWeek = gregCal.get( Calendar.DAY_OF_WEEK ); String sDayOfWeek = ""; if ( intDayOfWeek == Calendar.MONDAY ) { sDayOfWeek = "MON"; } else if ( intDayOfWeek == Calendar.TUESDAY ) { sDayOfWeek = "TUE"; } else if ( intDayOfWeek == Calendar.WEDNESDAY ) { sDayOfWeek = "WED"; } else if ( intDayOfWeek == Calendar.THURSDAY ) { sDayOfWeek = "THU"; } else if ( intDayOfWeek == Calendar.FRIDAY ) { sDayOfWeek = "FRI"; } this.setStringToCell( xcellrange, intRow, intColumn, sDayOfWeek ); } /** Calculates the dates of the official holidays with help of Calc * functions. * @param vectorHolidays Holding all holidays. * @param xcellrange Providing the cells. * @param xfunctionaccess Provides access to functions of the Calc. * @param intYear Year to calculate the official holidays. */ public void getOfficialHolidays( Vector vectorHolidays, XCellRange xcellrange, XFunctionAccess xfunctionaccess, int intYear ) { try { // Official Holidays for how many years? final int intHowManyYears = 2; // Get the Official Holiday for two years for ( int intNumberOfYear = 0; intNumberOfYear <= ( intHowManyYears - 1 ); intNumberOfYear++ ) { intYear += intNumberOfYear; // Getting the Easter sunday Double dEasterSunday = ( Double ) xfunctionaccess.callFunction( "EASTERSUNDAY", new Object[] { new Integer(intYear) }); int intEasterSunday = (int)Math.round( dEasterSunday.doubleValue()); // New-year vectorHolidays.addElement( xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( intYear ), new Integer( 1 ), new Integer( 1 ) } )); // Good Friday vectorHolidays.addElement( new Double( intEasterSunday - 2 ) ); // Easter monday vectorHolidays.addElement( new Double( intEasterSunday + 1 ) ); // Labour Day vectorHolidays.addElement( xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( intYear ), new Integer( 5 ), new Integer( 1 ) } )); // Ascension Day vectorHolidays.addElement(new Double(intEasterSunday + 39 )); // Pentecost monday vectorHolidays.addElement(new Double(intEasterSunday + 50 )); // German Unification vectorHolidays.addElement( xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( intYear ), new Integer( 10 ), new Integer( 3 ) } )); // Christmas Day First vectorHolidays.addElement( xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( intYear ), new Integer( 12 ), new Integer( 25 ) } )); // Christmas Day Second vectorHolidays.addElement( xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( intYear ), new Integer( 12 ), new Integer( 26 ) } )); } } catch( Exception exception ) { this.showExceptionMessage( exception ); } } /** Returns the serial number of the date before or after a specified * number of workdays. * @param gregCalStartDate Date to start with the calculation. * @param intDays Number of workdays (e.g. 5 or -3). * @param objectHolidays Private and public holidays to take into account. * @param xfunctionaccess Allows to call functions from the Calc. * @return The gregorian date before or after a specified number of * workdays. */ public GregorianCalendar getWorkday( GregorianCalendar gregCalStartDate, int intDays, Object[][] objectHolidays, XFunctionAccess xfunctionaccess ) { GregorianCalendar gregCalWorkday = null; try { // Getting the value of the start date Double dDate = ( Double ) xfunctionaccess.callFunction( "DATE", new Object[] { new Integer( gregCalStartDate.get( Calendar.YEAR ) ), new Integer( gregCalStartDate.get( Calendar.MONTH ) + 1 ), new Integer( gregCalStartDate.get( Calendar.DATE ) ) } ); Double dWorkday = ( Double ) xfunctionaccess.callFunction( "com.sun.star.sheet.addin.Analysis.getWorkday", new Object[] { dDate, new Integer( intDays ), objectHolidays } ); Double dYear = ( Double ) xfunctionaccess.callFunction( "YEAR", new Object[] { dWorkday } ); Double dMonth = ( Double ) xfunctionaccess.callFunction( "MONTH", new Object[] { dWorkday } ); Double dDay = ( Double ) xfunctionaccess.callFunction( "DAY", new Object[] { dWorkday } ); gregCalWorkday = new GregorianCalendar( dYear.intValue(), dMonth.intValue() - 1, dDay.intValue() ); } catch( Exception exception ) { this.showExceptionMessage( exception ); } return gregCalWorkday; } /** Getting the holidays from the spreadsheet. * @param vectorHolidays Holding all holidays. * @param xcellrange Providing the cells. * @param xfunctionaccess Provides the access to functions of the Calc. */ public void getPrivateHolidays( Vector vectorHolidays, XCellRange xcellrange, XFunctionAccess xfunctionaccess ) { try { int intRow = this.INT_ROW_HOLIDAYS_START; int intColumn = this.INT_COLUMN_HOLIDAYS_START; double dHolidayStart = xcellrange.getCellByPosition( intColumn, intRow ).getValue(); double dHolidayEnd = xcellrange.getCellByPosition( intColumn + 1, intRow ).getValue(); while ( dHolidayStart != 0 ) { if ( dHolidayEnd == 0 ) { vectorHolidays.addElement( new Integer( (int) Math.round( dHolidayStart ) ) ); } else { for ( int intHoliday = (int) Math.round( dHolidayStart ); intHoliday <= (int) Math.round( dHolidayEnd ); intHoliday++ ) { vectorHolidays.addElement( new Double( intHoliday ) ); } } intRow++; dHolidayStart = xcellrange.getCellByPosition( intColumn, intRow).getValue(); dHolidayEnd = xcellrange.getCellByPosition( intColumn + 1, intRow).getValue(); } } catch( Exception exception ) { this.showExceptionMessage( exception ); } } /** Showing the stack trace in a JOptionPane. * @param sMessage The message to show. */ public void showMessage( String sMessage ) { javax.swing.JFrame jframe = new javax.swing.JFrame(); jframe.setLocation(100, 100); jframe.setSize(300, 200); jframe.setVisible(true); javax.swing.JOptionPane.showMessageDialog( jframe, sMessage, "Debugging information", javax.swing.JOptionPane.INFORMATION_MESSAGE); jframe.dispose(); } /** Writing the stack trace from an exception to a string and calling * the method showMessage() with this string. * @param exception The occured exception. * @see showMessage */ public void showExceptionMessage( Exception exception ) { java.io.StringWriter swriter = new java.io.StringWriter(); java.io.PrintWriter printwriter = new java.io.PrintWriter( swriter ); exception.printStackTrace( printwriter); System.err.println( exception ); this.showMessage( swriter.getBuffer().substring(0) ); } } /** * Gives a factory for creating the service. * This method is called by the JavaLoader *

* @return returns a XSingleComponentFactory for creating * the component * @param sImplName the name of the implementation for which a * service is desired * @see com.sun.star.comp.loader.JavaLoader */ public static XSingleComponentFactory __getComponentFactory(String sImplName) { XSingleComponentFactory xFactory = null; if ( sImplName.equals( ToDoImpl.class.getName() ) ) xFactory = Factory.createComponentFactory(ToDoImpl.class, ToDoImpl.getServiceNames()); return xFactory; } /** * Writes the service information into the given registry key. * This method is called by the JavaLoader *

* @return returns true if the operation succeeded * @param regKey the registryKey * @see com.sun.star.comp.loader.JavaLoader */ // This method not longer necessary since OOo 3.4 where the component registration // was changed to passive component registration. For more details see // http://wiki.services.openoffice.org/wiki/Passive_Component_Registration // public static boolean __writeRegistryServiceInfo(XRegistryKey regKey) { // return Factory.writeRegistryServiceInfo(ToDoImpl.class.getName(), // ToDoImpl.getServiceNames(), regKey); // } }