/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace toolkitform { using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::awt; using namespace ::com::sun::star::style; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::form; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::container; static const char FM_PROP_NAME[] = "Name"; namespace { /** determines the FormComponentType of a form control */ sal_Int16 classifyFormControl( const Reference< XPropertySet >& _rxModel ) { static const char FM_PROP_CLASSID[] = "ClassId"; sal_Int16 nControlType = FormComponentType::CONTROL; Reference< XPropertySetInfo > xPSI; if ( _rxModel.is() ) xPSI = _rxModel->getPropertySetInfo(); if ( xPSI.is() && xPSI->hasPropertyByName( FM_PROP_CLASSID ) ) { OSL_VERIFY( _rxModel->getPropertyValue( FM_PROP_CLASSID ) >>= nControlType ); } return nControlType; } /** (default-)creates a PDF widget according to a given FormComponentType */ std::unique_ptr createDefaultWidget( sal_Int16 _nFormComponentType ) { switch ( _nFormComponentType ) { case FormComponentType::COMMANDBUTTON: return std::make_unique(); case FormComponentType::CHECKBOX: return std::make_unique(); case FormComponentType::RADIOBUTTON: return std::make_unique(); case FormComponentType::LISTBOX: return std::make_unique(); case FormComponentType::COMBOBOX: return std::make_unique(); case FormComponentType::TEXTFIELD: case FormComponentType::FILECONTROL: case FormComponentType::DATEFIELD: case FormComponentType::TIMEFIELD: case FormComponentType::NUMERICFIELD: case FormComponentType::CURRENCYFIELD: case FormComponentType::PATTERNFIELD: return std::make_unique(); } return nullptr; } /** determines a unique number for the radio group which the given radio button model belongs to The number is guaranteed to be
  • unique within the document in which the button lives
  • the same for subsequent calls with other radio button models, which live in the same document, and belong to the same group
@precond the model must be part of the form component hierarchy in a document */ sal_Int32 determineRadioGroupId( const Reference< XPropertySet >& _rxRadioModel ) { OSL_ENSURE( classifyFormControl( _rxRadioModel ) == FormComponentType::RADIOBUTTON, "determineRadioGroupId: this *is* no radio button model!" ); // The fact that radio button groups need to be unique within the complete // host document makes it somewhat difficult ... // Problem is that two form radio buttons belong to the same group if // - they have the same parent // - AND they have the same name or group name // This implies that we need some knowledge about (potentially) *all* radio button // groups in the document. // get the root-level container Reference< XChild > xChild( _rxRadioModel, UNO_QUERY ); Reference< XForm > xParentForm( xChild.is() ? xChild->getParent() : Reference< XInterface >(), UNO_QUERY ); OSL_ENSURE( xParentForm.is(), "determineRadioGroupId: no parent form -> group id!" ); if ( !xParentForm.is() ) return -1; while ( xParentForm.is() ) { xChild = xParentForm.get(); xParentForm.set(xChild->getParent(), css::uno::UNO_QUERY); } Reference< XIndexAccess > xRoot( xChild->getParent(), UNO_QUERY ); OSL_ENSURE( xRoot.is(), "determineRadioGroupId: unable to determine the root of the form component hierarchy!" ); if ( !xRoot.is() ) return -1; // count the leafs in the hierarchy, until we encounter radio button ::std::vector< Reference< XIndexAccess > > aAncestors; ::std::vector< sal_Int32 > aPath; Reference< XInterface > xNormalizedLookup( _rxRadioModel, UNO_QUERY ); Reference< XIndexAccess > xCurrentContainer( xRoot ); sal_Int32 nStartWithChild = 0; sal_Int32 nGroupsEncountered = 0; do { std::unordered_map GroupNameMap; std::unordered_map SharedNameMap; sal_Int32 nCount = xCurrentContainer->getCount(); sal_Int32 i; for ( i = nStartWithChild; i < nCount; ++i ) { Reference< XInterface > xElement( xCurrentContainer->getByIndex( i ), UNO_QUERY ); if ( !xElement.is() ) { OSL_FAIL( "determineRadioGroupId: very suspicious!" ); continue; } Reference< XIndexAccess > xNewContainer( xElement, UNO_QUERY ); if ( xNewContainer.is() ) { // step down the hierarchy aAncestors.push_back( xCurrentContainer ); xCurrentContainer = xNewContainer; aPath.push_back( i ); nStartWithChild = 0; break; // out of the inner loop, but continue with the outer loop } if ( xElement.get() == xNormalizedLookup.get() ) { // Our radio button is in this container. // Now take the time to ID this container's groups and return the button's groupId for ( i = 0; i < nCount; ++i ) { try { xElement.set( xCurrentContainer->getByIndex( i ), UNO_QUERY_THROW ); Reference< XServiceInfo > xModelSI( xElement, UNO_QUERY_THROW ); if ( xModelSI->supportsService("com.sun.star.awt.UnoControlRadioButtonModel") ) { Reference< XPropertySet > aProps( xElement, UNO_QUERY_THROW ); OUString sGroupName; aProps->getPropertyValue("GroupName") >>= sGroupName; if ( !sGroupName.isEmpty() ) { // map: unique key is the group name, so attempts to add a different ID value // for an existing group are ignored - keeping the first ID - perfect for this scenario. GroupNameMap.emplace( sGroupName, nGroupsEncountered + i ); if ( xElement.get() == xNormalizedLookup.get() ) return GroupNameMap[sGroupName]; } else { // Old implementation didn't have a GroupName, just identical Control names. aProps->getPropertyValue( FM_PROP_NAME ) >>= sGroupName; SharedNameMap.emplace( sGroupName, nGroupsEncountered + i ); if ( xElement.get() == xNormalizedLookup.get() ) return SharedNameMap[sGroupName]; } } } catch( uno::Exception& ) { DBG_UNHANDLED_EXCEPTION("toolkit"); } } SAL_WARN("toolkit","determineRadioGroupId: did not find the radios element's group!" ); } } // we encounter this container the first time. In particular, we did not just step up if ( nStartWithChild == 0 ) { // Our control wasn't in this container, so consider every item to be a possible unique group. // This is way too much: Not all of the elements in the current container will form groups. // But anyway, this number is sufficient for our purpose, since sequential group ids are not required. // Ultimately, the container contains *at most* this many groups. nGroupsEncountered += nCount; } if ( i >= nCount ) { // the loop terminated because there were no more elements // -> step up, if possible if ( aAncestors.empty() ) break; xCurrentContainer = aAncestors.back(); aAncestors.pop_back(); nStartWithChild = aPath.back() + 1; aPath.pop_back(); } } while ( true ); return -1; } /** copies a StringItemList to a PDF widget's list */ void getStringItemVector( const Reference< XPropertySet >& _rxModel, ::std::vector< OUString >& _rVector ) { Sequence< OUString > aListEntries; OSL_VERIFY( _rxModel->getPropertyValue( "StringItemList" ) >>= aListEntries ); ::std::copy( aListEntries.begin(), aListEntries.end(), ::std::back_insert_iterator< ::std::vector< OUString > >( _rVector ) ); } } /** creates a PDF compatible control descriptor for the given control */ std::unique_ptr describePDFControl( const Reference< XControl >& _rxControl, vcl::PDFExtOutDevData& i_pdfExportData ) { std::unique_ptr Descriptor; OSL_ENSURE( _rxControl.is(), "describePDFControl: invalid (NULL) control!" ); if ( !_rxControl.is() ) return Descriptor; try { Reference< XPropertySet > xModelProps( _rxControl->getModel(), UNO_QUERY ); sal_Int16 nControlType = classifyFormControl( xModelProps ); Descriptor = createDefaultWidget( nControlType ); if (!Descriptor) // no PDF widget available for this return Descriptor; Reference< XPropertySetInfo > xPSI( xModelProps->getPropertySetInfo() ); Reference< XServiceInfo > xSI( xModelProps, UNO_QUERY ); OSL_ENSURE( xSI.is(), "describePDFControl: no service info!" ); // if we survived classifyFormControl, then it's a real form control, and they all have // service infos // set the common widget properties // Name, Description, Text OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_NAME ) >>= Descriptor->Name ); OSL_VERIFY( xModelProps->getPropertyValue( "HelpText" ) >>= Descriptor->Description ); Any aText; static const char FM_PROP_TEXT[] = "Text"; static const char FM_PROP_LABEL[] = "Label"; if ( xPSI->hasPropertyByName( FM_PROP_TEXT ) ) aText = xModelProps->getPropertyValue( FM_PROP_TEXT ); else if ( xPSI->hasPropertyByName( FM_PROP_LABEL ) ) aText = xModelProps->getPropertyValue( FM_PROP_LABEL ); if ( aText.hasValue() ) OSL_VERIFY( aText >>= Descriptor->Text ); // readonly static const char FM_PROP_READONLY[] = "ReadOnly"; if ( xPSI->hasPropertyByName( FM_PROP_READONLY ) ) OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_READONLY ) >>= Descriptor->ReadOnly ); // border { static const char FM_PROP_BORDER[] = "Border"; if ( xPSI->hasPropertyByName( FM_PROP_BORDER ) ) { sal_Int16 nBorderType = 0; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_BORDER ) >>= nBorderType ); Descriptor->Border = ( nBorderType != 0 ); OUString sBorderColorPropertyName( "BorderColor" ); if ( xPSI->hasPropertyByName( sBorderColorPropertyName ) ) { Color nBorderColor = COL_TRANSPARENT; if ( xModelProps->getPropertyValue( sBorderColorPropertyName ) >>= nBorderColor ) Descriptor->BorderColor = nBorderColor; else Descriptor->BorderColor = COL_BLACK; } } } // background color static const char FM_PROP_BACKGROUNDCOLOR[] = "BackgroundColor"; if ( xPSI->hasPropertyByName( FM_PROP_BACKGROUNDCOLOR ) ) { Color nBackColor = COL_TRANSPARENT; xModelProps->getPropertyValue( FM_PROP_BACKGROUNDCOLOR ) >>= nBackColor; Descriptor->Background = true; Descriptor->BackgroundColor = nBackColor; } // text color static const char FM_PROP_TEXTCOLOR[] = "TextColor"; if ( xPSI->hasPropertyByName( FM_PROP_TEXTCOLOR ) ) { Color nTextColor = COL_TRANSPARENT; xModelProps->getPropertyValue( FM_PROP_TEXTCOLOR ) >>= nTextColor; Descriptor->TextColor = nTextColor; } // text style Descriptor->TextStyle = DrawTextFlags::NONE; // multi line and word break // The MultiLine property of the control is mapped to both the "MULTILINE" and // "WORDBREAK" style flags static const char FM_PROP_MULTILINE[] = "MultiLine"; if ( xPSI->hasPropertyByName( FM_PROP_MULTILINE ) ) { bool bMultiLine = false; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_MULTILINE ) >>= bMultiLine ); if ( bMultiLine ) Descriptor->TextStyle |= DrawTextFlags::MultiLine | DrawTextFlags::WordBreak; } // horizontal alignment static const char FM_PROP_ALIGN[] = "Align"; if ( xPSI->hasPropertyByName( FM_PROP_ALIGN ) ) { sal_Int16 nAlign = awt::TextAlign::LEFT; xModelProps->getPropertyValue( FM_PROP_ALIGN ) >>= nAlign; // TODO: when the property is VOID - are there situations/UIs where this // means something else than LEFT? switch ( nAlign ) { case awt::TextAlign::LEFT: Descriptor->TextStyle |= DrawTextFlags::Left; break; case awt::TextAlign::CENTER: Descriptor->TextStyle |= DrawTextFlags::Center; break; case awt::TextAlign::RIGHT: Descriptor->TextStyle |= DrawTextFlags::Right; break; default: OSL_FAIL( "describePDFControl: invalid text align!" ); } } // vertical alignment { OUString sVertAlignPropertyName( "VerticalAlign" ); if ( xPSI->hasPropertyByName( sVertAlignPropertyName ) ) { VerticalAlignment nAlign = VerticalAlignment_MIDDLE; xModelProps->getPropertyValue( sVertAlignPropertyName ) >>= nAlign; switch ( nAlign ) { case VerticalAlignment_TOP: Descriptor->TextStyle |= DrawTextFlags::Top; break; case VerticalAlignment_MIDDLE: Descriptor->TextStyle |= DrawTextFlags::VCenter; break; case VerticalAlignment_BOTTOM: Descriptor->TextStyle |= DrawTextFlags::Bottom; break; default: OSL_FAIL( "describePDFControl: invalid vertical text align!" ); } } } // font static const char FM_PROP_FONT[] = "FontDescriptor"; if ( xPSI->hasPropertyByName( FM_PROP_FONT ) ) { FontDescriptor aUNOFont; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_FONT ) >>= aUNOFont ); Descriptor->TextFont = VCLUnoHelper::CreateFont( aUNOFont, vcl::Font() ); } // tab order OUString aTabIndexString( "TabIndex" ); if ( xPSI->hasPropertyByName( aTabIndexString ) ) { sal_Int16 nIndex = -1; OSL_VERIFY( xModelProps->getPropertyValue( aTabIndexString ) >>= nIndex ); Descriptor->TabOrder = nIndex; } // special widget properties // edits if ( Descriptor->getType() == vcl::PDFWriter::Edit ) { vcl::PDFWriter::EditWidget* pEditWidget = static_cast< vcl::PDFWriter::EditWidget* >( Descriptor.get() ); // multiline (already flagged in the TextStyle) pEditWidget->MultiLine = bool( Descriptor->TextStyle & DrawTextFlags::MultiLine ); // password input OUString sEchoCharPropName( "EchoChar" ); if ( xPSI->hasPropertyByName( sEchoCharPropName ) ) { sal_Int16 nEchoChar = 0; if ( ( xModelProps->getPropertyValue( sEchoCharPropName ) >>= nEchoChar ) && ( nEchoChar != 0 ) ) pEditWidget->Password = true; } // file select if ( xSI->supportsService( "com.sun.star.form.component.FileControl" ) ) pEditWidget->FileSelect = true; // maximum text length static const char FM_PROP_MAXTEXTLEN[] = "MaxTextLen"; if ( xPSI->hasPropertyByName( FM_PROP_MAXTEXTLEN ) ) { sal_Int16 nMaxTextLength = 0; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_MAXTEXTLEN ) >>= nMaxTextLength ); if ( nMaxTextLength <= 0 ) // "-1" has a special meaning for database-bound controls nMaxTextLength = 0; pEditWidget->MaxLen = nMaxTextLength; } } // buttons if ( Descriptor->getType() == vcl::PDFWriter::PushButton ) { vcl::PDFWriter::PushButtonWidget* pButtonWidget = static_cast< vcl::PDFWriter::PushButtonWidget* >( Descriptor.get() ); FormButtonType eButtonType = FormButtonType_PUSH; OSL_VERIFY( xModelProps->getPropertyValue("ButtonType") >>= eButtonType ); static const char FM_PROP_TARGET_URL[] = "TargetURL"; if ( eButtonType == FormButtonType_SUBMIT ) { // if a button is a submit button, then it uses the URL at its parent form Reference< XChild > xChild( xModelProps, UNO_QUERY ); Reference < XPropertySet > xParentProps; if ( xChild.is() ) xParentProps.set(xChild->getParent(), css::uno::UNO_QUERY); if ( xParentProps.is() ) { Reference< XServiceInfo > xParentSI( xParentProps, UNO_QUERY ); if ( xParentSI.is() && xParentSI->supportsService("com.sun.star.form.component.HTMLForm") ) { OSL_VERIFY( xParentProps->getPropertyValue( FM_PROP_TARGET_URL ) >>= pButtonWidget->URL ); pButtonWidget->Submit = true; FormSubmitMethod eMethod = FormSubmitMethod_POST; OSL_VERIFY( xParentProps->getPropertyValue("SubmitMethod") >>= eMethod ); pButtonWidget->SubmitGet = (eMethod == FormSubmitMethod_GET); } } } else if ( eButtonType == FormButtonType_URL ) { OUString sURL; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_TARGET_URL ) >>= sURL ); const bool bDocumentLocalTarget = sURL.startsWith("#"); if ( bDocumentLocalTarget ) { // Register the destination for future handling ... pButtonWidget->Dest = i_pdfExportData.RegisterDest(); // and put it into the bookmarks, to ensure the future handling really happens ::std::vector< vcl::PDFExtOutDevBookmarkEntry >& rBookmarks( i_pdfExportData.GetBookmarks() ); vcl::PDFExtOutDevBookmarkEntry aBookmark; aBookmark.nDestId = pButtonWidget->Dest; aBookmark.aBookmark = sURL; rBookmarks.push_back( aBookmark ); } else pButtonWidget->URL = sURL; pButtonWidget->Submit = false; } // TODO: // In PDF files, buttons are either reset, url or submit buttons. So if we have a simple PUSH button // in a document, then this means that we do not export a SubmitToURL, which means that in PDF, // the button is used as reset button. // Is this desired? If no, we would have to reset Descriptor to NULL here, in case eButtonType // != FormButtonType_SUBMIT && != FormButtonType_RESET // the PDF exporter defaults the text style, if 0. To prevent this, we have to transfer the UNO // defaults to the PDF widget if ( pButtonWidget->TextStyle == DrawTextFlags::NONE ) pButtonWidget->TextStyle = DrawTextFlags::Center | DrawTextFlags::VCenter; } // check boxes static const char FM_PROP_STATE[] = "State"; if ( Descriptor->getType() == vcl::PDFWriter::CheckBox ) { vcl::PDFWriter::CheckBoxWidget* pCheckBoxWidget = static_cast< vcl::PDFWriter::CheckBoxWidget* >( Descriptor.get() ); sal_Int16 nState = 0; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_STATE ) >>= nState ); pCheckBoxWidget->Checked = ( nState != 0 ); } // radio buttons if ( Descriptor->getType() == vcl::PDFWriter::RadioButton ) { vcl::PDFWriter::RadioButtonWidget* pRadioWidget = static_cast< vcl::PDFWriter::RadioButtonWidget* >( Descriptor.get() ); sal_Int16 nState = 0; OSL_VERIFY( xModelProps->getPropertyValue( FM_PROP_STATE ) >>= nState ); pRadioWidget->Selected = ( nState != 0 ); pRadioWidget->RadioGroup = determineRadioGroupId( xModelProps ); try { xModelProps->getPropertyValue( "RefValue" ) >>= pRadioWidget->OnValue; } catch(...) { pRadioWidget->OnValue = "On"; } } // list boxes if ( Descriptor->getType() == vcl::PDFWriter::ListBox ) { vcl::PDFWriter::ListBoxWidget* pListWidget = static_cast< vcl::PDFWriter::ListBoxWidget* >( Descriptor.get() ); // drop down OSL_VERIFY( xModelProps->getPropertyValue( "Dropdown" ) >>= pListWidget->DropDown ); // multi selection OSL_VERIFY( xModelProps->getPropertyValue("MultiSelection") >>= pListWidget->MultiSelect ); // entries getStringItemVector( xModelProps, pListWidget->Entries ); // get selected items Sequence< sal_Int16 > aSelectIndices; OSL_VERIFY( xModelProps->getPropertyValue("SelectedItems") >>= aSelectIndices ); if( aSelectIndices.getLength() > 0 ) { pListWidget->SelectedEntries.resize( 0 ); for( sal_Int32 i = 0; i < aSelectIndices.getLength(); i++ ) { sal_Int16 nIndex = aSelectIndices.getConstArray()[i]; if( nIndex >= 0 && nIndex < static_cast(pListWidget->Entries.size()) ) pListWidget->SelectedEntries.push_back( nIndex ); } } } // combo boxes if ( Descriptor->getType() == vcl::PDFWriter::ComboBox ) { vcl::PDFWriter::ComboBoxWidget* pComboWidget = static_cast< vcl::PDFWriter::ComboBoxWidget* >( Descriptor.get() ); // entries getStringItemVector( xModelProps, pComboWidget->Entries ); } // some post-processing // text line ends // some controls may (always or dependent on other settings) return UNIX line ends Descriptor->Text = convertLineEnd(Descriptor->Text, LINEEND_CRLF); } catch( const Exception& ) { OSL_FAIL( "describePDFControl: caught an exception!" ); } return Descriptor; } } // namespace toolkitform /* vim:set shiftwidth=4 softtabstop=4 expandtab: */