/* -*- 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 <memory>
#include <string_view>
#include <sal/config.h>
#include <AccessibleCell.hxx>
#include <scitems.hxx>
#include <AccessibleText.hxx>
#include <AccessibleDocument.hxx>
#include <tabvwsh.hxx>
#include <comphelper/sequence.hxx>
#include <document.hxx>
#include <attrib.hxx>
#include <editsrc.hxx>
#include <dociter.hxx>
#include <markdata.hxx>
#include <cellvalue.hxx>
#include <formulaiter.hxx>
#include <validat.hxx>
#include <unotools/accessiblerelationsethelper.hxx>
#include <com/sun/star/accessibility/AccessibleStateType.hpp>
#include <com/sun/star/accessibility/AccessibleRelationType.hpp>
#include <com/sun/star/accessibility/XAccessibleTable.hpp>
#include <editeng/brushitem.hxx>
#include <vcl/svapp.hxx>
#include <AccessibleSpreadsheet.hxx>
using namespace ::com::sun::star;
using namespace ::com::sun::star::accessibility;
rtl::Reference<ScAccessibleCell> ScAccessibleCell::create(
const uno::Reference<XAccessible>& rxParent,
ScTabViewShell* pViewShell,
const ScAddress& rCellAddress,
sal_Int64 nIndex,
ScSplitPos eSplitPos,
ScAccessibleDocument* pAccDoc)
{
rtl::Reference<ScAccessibleCell> x(new ScAccessibleCell(
rxParent, pViewShell, rCellAddress, nIndex, eSplitPos, pAccDoc));
x->Init();
return x;
}
ScAccessibleCell::ScAccessibleCell(
const uno::Reference<XAccessible>& rxParent,
ScTabViewShell* pViewShell,
const ScAddress& rCellAddress,
sal_Int64 nIndex,
ScSplitPos eSplitPos,
ScAccessibleDocument* pAccDoc)
:
ScAccessibleCellBase(rxParent, GetDocument(pViewShell), rCellAddress, nIndex),
::accessibility::AccessibleStaticTextBase(CreateEditSource(pViewShell, rCellAddress, eSplitPos)),
mpViewShell(pViewShell),
mpAccDoc(pAccDoc),
meSplitPos(eSplitPos)
{
if (pViewShell)
pViewShell->AddAccessibilityObject(*this);
}
ScAccessibleCell::~ScAccessibleCell()
{
if (!ScAccessibleContextBase::IsDefunc() && !rBHelper.bInDispose)
{
// increment refcount to prevent double call off dtor
osl_atomic_increment( &m_refCount );
// call dispose to inform object which have a weak reference to this object
dispose();
}
}
void ScAccessibleCell::Init()
{
ScAccessibleCellBase::Init();
SetEventSource(this);
}
void SAL_CALL ScAccessibleCell::disposing()
{
SolarMutexGuard aGuard;
// dispose in AccessibleStaticTextBase
Dispose();
if (mpViewShell)
{
mpViewShell->RemoveAccessibilityObject(*this);
mpViewShell = nullptr;
}
mpAccDoc = nullptr;
ScAccessibleCellBase::disposing();
}
//===== XInterface =====================================================
IMPLEMENT_FORWARD_XINTERFACE3( ScAccessibleCell, ScAccessibleCellBase, AccessibleStaticTextBase, ScAccessibleCellAttributeImpl )
//===== XTypeProvider ===================================================
css::uno::Sequence< css::uno::Type > SAL_CALL ScAccessibleCell::getTypes()
{
return ::comphelper::concatSequences(
ScAccessibleCellBase::getTypes(),
AccessibleStaticTextBase::getTypes(),
ScAccessibleCellAttributeImpl::getTypes()
);
}
IMPLEMENT_GET_IMPLEMENTATION_ID( ScAccessibleCell )
//===== XAccessibleComponent ============================================
uno::Reference< XAccessible > SAL_CALL ScAccessibleCell::getAccessibleAtPoint(
const awt::Point& rPoint )
{
return AccessibleStaticTextBase::getAccessibleAtPoint(rPoint);
}
void SAL_CALL ScAccessibleCell::grabFocus( )
{
SolarMutexGuard aGuard;
IsObjectValid();
if (getAccessibleParent().is() && mpViewShell)
{
uno::Reference<XAccessibleComponent> xAccessibleComponent(getAccessibleParent()->getAccessibleContext(), uno::UNO_QUERY);
if (xAccessibleComponent.is())
{
xAccessibleComponent->grabFocus();
mpViewShell->SetCursor(maCellAddress.Col(), maCellAddress.Row());
}
}
}
AbsoluteScreenPixelRectangle ScAccessibleCell::GetBoundingBoxOnScreen() const
{
AbsoluteScreenPixelRectangle aCellRect(GetBoundingBox());
if (mpViewShell)
{
vcl::Window* pWindow = mpViewShell->GetWindowByPos(meSplitPos);
if (pWindow)
{
AbsoluteScreenPixelRectangle aRect = pWindow->GetWindowExtentsAbsolute();
aCellRect.Move(aRect.Left(), aRect.Top());
}
}
return aCellRect;
}
tools::Rectangle ScAccessibleCell::GetBoundingBox() const
{
tools::Rectangle aCellRect;
if (mpViewShell)
{
tools::Long nSizeX, nSizeY;
mpViewShell->GetViewData().GetMergeSizePixel(
maCellAddress.Col(), maCellAddress.Row(), nSizeX, nSizeY);
aCellRect.SetSize(Size(nSizeX, nSizeY));
aCellRect.SetPos(mpViewShell->GetViewData().GetScrPos(maCellAddress.Col(), maCellAddress.Row(), meSplitPos, true));
vcl::Window* pWindow = mpViewShell->GetWindowByPos(meSplitPos);
if (pWindow)
{
tools::Rectangle aRect(pWindow->GetWindowExtentsRelative(*pWindow->GetAccessibleParentWindow()));
aRect.Move(-aRect.Left(), -aRect.Top());
aCellRect = aRect.Intersection(aCellRect);
}
/* #i19430# Gnopernicus reads text partly if it sticks out of the cell
boundaries. This leads to wrong results in cases where the cell
text is rotated, because rotation is not taken into account when
calculating the visible part of the text. In these cases we will
simply expand the cell size to the width of the unrotated text. */
if (mpDoc)
{
const ScRotateValueItem* pItem = mpDoc->GetAttr( maCellAddress, ATTR_ROTATE_VALUE );
if( pItem && (pItem->GetValue() != 0_deg100) )
{
tools::Rectangle aParaRect = GetParagraphBoundingBox();
if( !aParaRect.IsEmpty() && (aCellRect.GetWidth() < aParaRect.GetWidth()) )
aCellRect.SetSize( Size( aParaRect.GetWidth(), aCellRect.GetHeight() ) );
}
}
}
if (aCellRect.IsEmpty())
aCellRect.SetPos(Point(-1, -1));
return aCellRect;
}
//===== XAccessibleContext ==============================================
sal_Int64 SAL_CALL
ScAccessibleCell::getAccessibleChildCount()
{
return AccessibleStaticTextBase::getAccessibleChildCount();
}
uno::Reference< XAccessible > SAL_CALL
ScAccessibleCell::getAccessibleChild(sal_Int64 nIndex)
{
return AccessibleStaticTextBase::getAccessibleChild(nIndex);
}
sal_Int64 SAL_CALL
ScAccessibleCell::getAccessibleStateSet()
{
SolarMutexGuard aGuard;
sal_Int64 nParentStates = 0;
if (getAccessibleParent().is())
{
uno::Reference<XAccessibleContext> xParentContext = getAccessibleParent()->getAccessibleContext();
nParentStates = xParentContext->getAccessibleStateSet();
}
sal_Int64 nStateSet = 0;
if (IsDefunc(nParentStates))
nStateSet |= AccessibleStateType::DEFUNC;
else
{
if (IsFocused())
nStateSet |= AccessibleStateType::FOCUSED;
if (IsFormulaMode())
{
nStateSet |= AccessibleStateType::ENABLED;
nStateSet |= AccessibleStateType::MULTI_LINE;
nStateSet |= AccessibleStateType::MULTI_SELECTABLE;
if (IsOpaque())
nStateSet |= AccessibleStateType::OPAQUE;
nStateSet |= AccessibleStateType::SELECTABLE;
if (IsSelected())
nStateSet |= AccessibleStateType::SELECTED;
if (isShowing())
nStateSet |= AccessibleStateType::SHOWING;
nStateSet |= AccessibleStateType::TRANSIENT;
if (isVisible())
nStateSet |= AccessibleStateType::VISIBLE;
return nStateSet;
}
if (IsEditable(nParentStates))
{
nStateSet |= AccessibleStateType::EDITABLE;
nStateSet |= AccessibleStateType::RESIZABLE;
}
nStateSet |= AccessibleStateType::ENABLED;
nStateSet |= AccessibleStateType::MULTI_LINE;
nStateSet |= AccessibleStateType::MULTI_SELECTABLE;
nStateSet |= AccessibleStateType::FOCUSABLE;
if (IsOpaque())
nStateSet |= AccessibleStateType::OPAQUE;
nStateSet |= AccessibleStateType::SELECTABLE;
if (IsSelected())
nStateSet |= AccessibleStateType::SELECTED;
if (isShowing())
nStateSet |= AccessibleStateType::SHOWING;
nStateSet |= AccessibleStateType::TRANSIENT;
if (isVisible())
nStateSet |= AccessibleStateType::VISIBLE;
}
return nStateSet;
}
uno::Reference<XAccessibleRelationSet> SAL_CALL
ScAccessibleCell::getAccessibleRelationSet()
{
SolarMutexGuard aGuard;
IsObjectValid();
rtl::Reference<utl::AccessibleRelationSetHelper> pRelationSet;
if (mpAccDoc)
pRelationSet = mpAccDoc->GetRelationSet(&maCellAddress);
if (!pRelationSet)
pRelationSet = new utl::AccessibleRelationSetHelper();
FillDependents(pRelationSet.get());
FillPrecedents(pRelationSet.get());
return pRelationSet;
}
//===== XServiceInfo ====================================================
OUString SAL_CALL ScAccessibleCell::getImplementationName()
{
return u"ScAccessibleCell"_ustr;
}
uno::Sequence< OUString> SAL_CALL
ScAccessibleCell::getSupportedServiceNames()
{
const css::uno::Sequence<OUString> vals { u"com.sun.star.sheet.AccessibleCell"_ustr };
return comphelper::concatSequences(ScAccessibleContextBase::getSupportedServiceNames(), vals);
}
//==== internal =========================================================
bool ScAccessibleCell::IsDefunc(sal_Int64 nParentStates)
{
return ScAccessibleContextBase::IsDefunc() || (mpDoc == nullptr) || (mpViewShell == nullptr) || !getAccessibleParent().is() ||
(nParentStates & AccessibleStateType::DEFUNC);
}
bool ScAccessibleCell::IsEditable(sal_Int64 nParentStates)
{
bool bEditable(true);
if ( !(nParentStates & AccessibleStateType::EDITABLE) &&
mpDoc)
{
// here I have to test whether the protection of the table should influence this cell.
const ScProtectionAttr* pItem = mpDoc->GetAttr(maCellAddress, ATTR_PROTECTION);
if (pItem)
bEditable = !pItem->GetProtection();
}
return bEditable;
}
bool ScAccessibleCell::IsOpaque() const
{
// test whether there is a background color
bool bOpaque(true);
if (mpDoc)
{
const SvxBrushItem* pItem = mpDoc->GetAttr(maCellAddress, ATTR_BACKGROUND);
if (pItem)
bOpaque = pItem->GetColor() != COL_TRANSPARENT;
}
return bOpaque;
}
bool ScAccessibleCell::IsFocused() const
{
if (mpViewShell && mpViewShell->GetViewData().GetCurPos() == maCellAddress)
return mpViewShell->GetActiveWin()->HasFocus();
return false;
}
bool ScAccessibleCell::IsSelected()
{
if (IsFormulaMode())
{
const ScAccessibleSpreadsheet *pSheet =static_cast<const ScAccessibleSpreadsheet*>(mxParent.get());
if (pSheet)
{
return pSheet->IsScAddrFormulaSel(maCellAddress);
}
return false;
}
bool bResult(false);
if (mpViewShell)
{
const ScMarkData& rMarkdata = mpViewShell->GetViewData().GetMarkData();
bResult = rMarkdata.IsCellMarked(maCellAddress.Col(), maCellAddress.Row());
}
return bResult;
}
ScDocument* ScAccessibleCell::GetDocument(ScTabViewShell* pViewShell)
{
ScDocument* pDoc = nullptr;
if (pViewShell)
pDoc = &pViewShell->GetViewData().GetDocument();
return pDoc;
}
::std::unique_ptr< SvxEditSource > ScAccessibleCell::CreateEditSource(ScTabViewShell* pViewShell, ScAddress aCell, ScSplitPos eSplitPos)
{
if (IsFormulaMode())
{
return ::std::unique_ptr< SvxEditSource >();
}
::std::unique_ptr< SvxEditSource > pEditSource (new ScAccessibilityEditSource(std::make_unique<ScAccessibleCellTextData>(pViewShell, aCell, eSplitPos, this)));
return pEditSource;
}
void ScAccessibleCell::FillDependents(utl::AccessibleRelationSetHelper* pRelationSet)
{
if (!mpDoc)
return;
ScRange aRange(0, 0, maCellAddress.Tab(), mpDoc->MaxCol(), mpDoc->MaxRow(), maCellAddress.Tab());
ScCellIterator aCellIter(*mpDoc, aRange);
for (bool bHasCell = aCellIter.first(); bHasCell; bHasCell = aCellIter.next())
{
if (aCellIter.getType() == CELLTYPE_FORMULA)
{
bool bFound = false;
ScDetectiveRefIter aIter(*mpDoc, aCellIter.getFormulaCell());
ScRange aRef;
while ( !bFound && aIter.GetNextRef( aRef ) )
{
if (aRef.Contains(maCellAddress))
bFound = true;
}
if (bFound)
AddRelation(aCellIter.GetPos(), AccessibleRelationType_CONTROLLER_FOR, pRelationSet);
}
}
}
void ScAccessibleCell::FillPrecedents(utl::AccessibleRelationSetHelper* pRelationSet)
{
if (!mpDoc)
return;
ScRefCellValue aCell(*mpDoc, maCellAddress);
if (aCell.getType() == CELLTYPE_FORMULA)
{
ScFormulaCell* pCell = aCell.getFormula();
ScDetectiveRefIter aIter(*mpDoc, pCell);
ScRange aRef;
while ( aIter.GetNextRef( aRef ) )
{
AddRelation( aRef, AccessibleRelationType_CONTROLLED_BY, pRelationSet);
}
}
}
void ScAccessibleCell::AddRelation(const ScAddress& rCell,
const AccessibleRelationType eRelationType,
utl::AccessibleRelationSetHelper* pRelationSet)
{
AddRelation(ScRange(rCell, rCell), eRelationType, pRelationSet);
}
void ScAccessibleCell::AddRelation(const ScRange& rRange,
const AccessibleRelationType eRelationType,
utl::AccessibleRelationSetHelper* pRelationSet)
{
uno::Reference < XAccessibleTable > xTable ( getAccessibleParent()->getAccessibleContext(), uno::UNO_QUERY );
if (!xTable.is())
return;
const sal_uInt32 nCount(static_cast<sal_uInt32>(rRange.aEnd.Col() -
rRange.aStart.Col() + 1) * (rRange.aEnd.Row() -
rRange.aStart.Row() + 1));
// tdf#157299 avoid handling a large amount of cells for performance reasons
if (nCount > 1000)
{
SAL_WARN("sc", "ScAccessibleCell::AddRelation: Not setting relations "
"for cell range with more than 1000 cells for performance reasons.");
return;
}
uno::Sequence<uno::Reference<css::accessibility::XAccessible>> aTargetSet(nCount);
uno::Reference <css::accessibility::XAccessible>* pTargetSet = aTargetSet.getArray();
sal_uInt32 nPos(0);
for (sal_uInt32 nRow = rRange.aStart.Row(); nRow <= sal::static_int_cast<sal_uInt32>(rRange.aEnd.Row()); ++nRow)
{
for (sal_uInt32 nCol = rRange.aStart.Col(); nCol <= sal::static_int_cast<sal_uInt32>(rRange.aEnd.Col()); ++nCol)
{
pTargetSet[nPos] = xTable->getAccessibleCellAt(nRow, nCol);
++nPos;
}
}
OSL_ENSURE(nCount == nPos, "something went wrong");
AccessibleRelation aRelation;
aRelation.RelationType = eRelationType;
aRelation.TargetSet = std::move(aTargetSet);
pRelationSet->AddRelation(aRelation);
}
static OUString ReplaceFourChar(const OUString& oldOUString)
{
return oldOUString.replaceAll(u"\\", u"\\\\")
.replaceAll(u";", u"\\;")
.replaceAll(u"=", u"\\=")
.replaceAll(u",", u"\\,")
.replaceAll(u":", u"\\:");
}
uno::Any SAL_CALL ScAccessibleCell::getExtendedAttributes()
{
SolarMutexGuard aGuard;
// report row and column index text via attributes as specified in ARIA which map
// to attributes of the same name for AT-SPI2, IAccessible2, UIA
// https://www.w3.org/TR/core-aam-1.2/#ariaRowIndexText
// https://www.w3.org/TR/core-aam-1.2/#ariaColIndexText
const OUString sRowIndexText = maCellAddress.Format(ScRefFlags::ROW_VALID);
const OUString sColIndexText = maCellAddress.Format(ScRefFlags::COL_VALID);
OUString sAttributes = "rowindextext:" + sRowIndexText + ";colindextext:" + sColIndexText + ";";
if (mpViewShell)
{
OUString strFor = mpViewShell->GetFormula(maCellAddress) ;
if (!strFor.isEmpty())
{
strFor = strFor.copy(1);
strFor = ReplaceFourChar(strFor);
}
strFor = "Formula:" + strFor +
";Note:" +
ReplaceFourChar(GetAllDisplayNote()) + ";" +
getShadowAttrs() + //the string returned contains the spliter ";"
getBorderAttrs();//the string returned contains the spliter ";"
//end of cell attributes
if( mpDoc )
{
strFor += "isdropdown:";
if( IsDropdown() )
strFor += "true";
else
strFor += "false";
strFor += ";";
}
sAttributes += strFor ;
}
return uno::Any(sAttributes);
}
// cell has its own ParaIndent property, so when calling character attributes on cell, the ParaIndent should replace the ParaLeftMargin if its value is not zero.
uno::Sequence< beans::PropertyValue > SAL_CALL ScAccessibleCell::getCharacterAttributes( sal_Int32 nIndex, const css::uno::Sequence< OUString >& aRequestedAttributes )
{
SolarMutexGuard aGuard;
uno::Sequence< beans::PropertyValue > aAttribs = AccessibleStaticTextBase::getCharacterAttributes( nIndex, aRequestedAttributes );
sal_uInt16 nParaIndent = mpDoc->GetAttr( maCellAddress, ATTR_INDENT )->GetValue();
if (nParaIndent > 0)
{
auto [begin, end] = asNonConstRange(aAttribs);
auto pAttrib = std::find_if(begin, end,
[](const beans::PropertyValue& rAttrib) { return "ParaLeftMargin" == rAttrib.Name; });
if (pAttrib != end)
pAttrib->Value <<= nParaIndent;
}
return aAttribs;
}
bool ScAccessibleCell::IsFormulaMode()
{
ScAccessibleSpreadsheet* pSheet = static_cast<ScAccessibleSpreadsheet*>(mxParent.get());
if (pSheet)
{
return pSheet->IsFormulaMode();
}
return false;
}
bool ScAccessibleCell::IsDropdown() const
{
sal_uInt16 nPosX = maCellAddress.Col();
sal_uInt16 nPosY = sal_uInt16(maCellAddress.Row());
sal_uInt16 nTab = maCellAddress.Tab();
sal_uInt32 nValidation = mpDoc->GetAttr( nPosX, nPosY, nTab, ATTR_VALIDDATA )->GetValue();
if( nValidation )
{
const ScValidationData* pData = mpDoc->GetValidationEntry( nValidation );
if( pData && pData->HasSelectionList() )
return true;
}
const ScMergeFlagAttr* pAttr = mpDoc->GetAttr( nPosX, nPosY, nTab, ATTR_MERGE_FLAG );
if( pAttr->HasAutoFilter() )
{
return true;
}
else
{
sal_uInt16 nTabCount = mpDoc->GetTableCount();
if ( nTab+1<nTabCount && mpDoc->IsScenario(nTab+1) && !mpDoc->IsScenario(nTab) )
{
SCTAB i;
ScMarkData aMarks(mpDoc->GetSheetLimits());
for (i=nTab+1; i<nTabCount && mpDoc->IsScenario(i); i++)
mpDoc->MarkScenario( i, nTab, aMarks, false, ScScenarioFlags::ShowFrame );
ScRangeList aRanges;
aMarks.FillRangeListWithMarks( &aRanges, false );
bool bHasScenario;
SCTAB nRangeCount = aRanges.size();
for (i=0; i<nRangeCount; i++)
{
ScRange aRange = aRanges[i];
mpDoc->ExtendTotalMerge( aRange );
bool bTextBelow = ( aRange.aStart.Row() == 0 );
// MT IA2: Not used: sal_Bool bIsInScen = sal_False;
if ( bTextBelow )
{
bHasScenario = (aRange.aStart.Col() == nPosX && aRange.aEnd.Row() == nPosY-1);
}
else
{
bHasScenario = (aRange.aStart.Col() == nPosX && aRange.aStart.Row() == nPosY+1);
}
if( bHasScenario ) return true;
}
}
}
return false;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V1029 Numeric Truncation Error. Return value of the 'size' function is written to the 16-bit variable.