Source/WebCore/accessibility/AccessibilityTableCell.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2008 Apple Inc. 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 Apple Inc. ("Apple") 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 APPLE AND ITS 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 APPLE OR ITS 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.
  */

 #include "config.h"
 #include "AccessibilityTableCell.h"

 #include "AXObjectCache.h"
 #include "AccessibilityTable.h"
 #include "AccessibilityTableRow.h"
 #include "ElementIterator.h"
 #include "HTMLElement.h"
 #include "HTMLNames.h"
 #include "RenderObject.h"
 #include "RenderTableCell.h"

 namespace WebCore {

 using namespace HTMLNames;

 AccessibilityTableCell::AccessibilityTableCell(RenderObject* renderer)
     : AccessibilityRenderObject(renderer)
     , m_axColIndexFromRow(-1)
 {
 }

 AccessibilityTableCell::~AccessibilityTableCell() = default;

 Ref<AccessibilityTableCell> AccessibilityTableCell::create(RenderObject* renderer)
 {
     return adoptRef(*new AccessibilityTableCell(renderer));
 }

 bool AccessibilityTableCell::computeAccessibilityIsIgnored() const
 {
     AccessibilityObjectInclusion decision = defaultObjectInclusion();
     if (decision == AccessibilityObjectInclusion::IncludeObject)
         return false;
     if (decision == AccessibilityObjectInclusion::IgnoreObject)
         return true;

     // Ignore anonymous table cells as long as they're not in a table (ie. when display:table is used).
     RenderObject* renderTable = is<RenderTableCell>(renderer()) ? downcast<RenderTableCell>(*m_renderer).table() : nullptr;
     bool inTable = renderTable && renderTable->node() && (renderTable->node()->hasTagName(tableTag) || nodeHasRole(renderTable->node(), "grid"));
     if (!node() && !inTable)
         return true;

     if (!isTableCell())
         return AccessibilityRenderObject::computeAccessibilityIsIgnored();

     return false;
 }

 AccessibilityTable* AccessibilityTableCell::parentTable() const
 {
     if (!is<RenderTableCell>(renderer()))
         return nullptr;

     // If the document no longer exists, we might not have an axObjectCache.
     if (!axObjectCache())
         return nullptr;

     // Do not use getOrCreate. parentTable() can be called while the render tree is being modified
     // by javascript, and creating a table element may try to access the render tree while in a bad state.
     // By using only get() implies that the AXTable must be created before AXTableCells. This should
     // always be the case when AT clients access a table.
     // https://bugs.webkit.org/show_bug.cgi?id=42652
     AccessibilityObject* parentTable = axObjectCache()->get(downcast<RenderTableCell>(*m_renderer).table());
     if (!is<AccessibilityTable>(parentTable))
         return nullptr;

     // The RenderTableCell's table() object might be anonymous sometimes. We should handle it gracefully
     // by finding the right table.
     if (!parentTable->node()) {
         for (AccessibilityObject* parent = parentObject(); parent; parent = parent->parentObject()) {
             // If this is a non-anonymous table object, but not an accessibility table, we should stop because
             // we don't want to choose another ancestor table as this cell's table.
             if (is<AccessibilityTable>(*parent)) {
                 auto& parentTable = downcast<AccessibilityTable>(*parent);
                 if (parentTable.isExposableThroughAccessibility())
                     return &parentTable;
                 if (parentTable.node())
                     break;
             }
         }
         return nullptr;
     }

     return downcast<AccessibilityTable>(parentTable);
 }

 bool AccessibilityTableCell::isTableCell() const
 {
     // If the parent table is an accessibility table, then we are a table cell.
     // This used to check if the unignoredParent was a row, but that exploded performance if
     // this was in nested tables. This check should be just as good.
     AccessibilityObject* parentTable = this->parentTable();
     return is<AccessibilityTable>(parentTable) && downcast<AccessibilityTable>(*parentTable).isExposableThroughAccessibility();
 }

 AccessibilityRole AccessibilityTableCell::determineAccessibilityRole()
 {
     // AccessibilityRenderObject::determineAccessibleRole provides any ARIA-supplied
     // role, falling back on the role to be used if we determine here that the element
     // should not be exposed as a cell. Thus if we already know it's a cell, return that.
     AccessibilityRole defaultRole = AccessibilityRenderObject::determineAccessibilityRole();
     if (defaultRole == AccessibilityRole::ColumnHeader || defaultRole == AccessibilityRole::RowHeader || defaultRole == AccessibilityRole::Cell || defaultRole == AccessibilityRole::GridCell)
         return defaultRole;

     if (!isTableCell())
         return defaultRole;
     if (isColumnHeaderCell())
         return AccessibilityRole::ColumnHeader;
     if (isRowHeaderCell())
         return AccessibilityRole::RowHeader;

     return AccessibilityRole::Cell;
 }

 bool AccessibilityTableCell::isTableHeaderCell() const
 {
     return node() && node()->hasTagName(thTag);
 }

 bool AccessibilityTableCell::isColumnHeaderCell() const
 {
     const AtomString& scope = getAttribute(scopeAttr);
     if (scope == "col" || scope == "colgroup")
         return true;
     if (scope == "row" || scope == "rowgroup")
         return false;
     if (!isTableHeaderCell())
         return false;

     // We are in a situation after checking the scope attribute.
     // It is an attempt to resolve the type of th element without support in the specification.
     // Checking tableTag and tbodyTag allows to check the case of direct row placement in the table and lets stop the loop at the table level.
     for (Node* parentNode = node(); parentNode; parentNode = parentNode->parentNode()) {
         if (parentNode->hasTagName(theadTag))
             return true;
         if (parentNode->hasTagName(tfootTag))
             return false;
         if (parentNode->hasTagName(tableTag) || parentNode->hasTagName(tbodyTag)) {
             std::pair<unsigned, unsigned> rowRange;
             rowIndexRange(rowRange);
             if (!rowRange.first)
                 return true;
             return false;
         }
     }
     return false;
 }

 bool AccessibilityTableCell::isRowHeaderCell() const
 {
     const AtomString& scope = getAttribute(scopeAttr);
     if (scope == "row" || scope == "rowgroup")
         return true;
     if (scope == "col" || scope == "colgroup")
         return false;
     if (!isTableHeaderCell())
         return false;

     // We are in a situation after checking the scope attribute.
     // It is an attempt to resolve the type of th element without support in the specification.
     // Checking tableTag allows to check the case of direct row placement in the table and lets stop the loop at the table level.
     for (Node* parentNode = node(); parentNode; parentNode = parentNode->parentNode()) {
         if (parentNode->hasTagName(tfootTag) || parentNode->hasTagName(tbodyTag) || parentNode->hasTagName(tableTag)) {
             std::pair<unsigned, unsigned> colRange;
             columnIndexRange(colRange);
             if (!colRange.first)
                 return true;
             return false;
         }
         if (parentNode->hasTagName(theadTag))
             return false;
     }
     return false;
 }

 bool AccessibilityTableCell::isTableCellInSameRowGroup(AccessibilityTableCell* otherTableCell)
 {
     Node* parentNode = node();
     for ( ; parentNode; parentNode = parentNode->parentNode()) {
         if (parentNode->hasTagName(theadTag) || parentNode->hasTagName(tbodyTag) || parentNode->hasTagName(tfootTag))
             break;
     }

     Node* otherParentNode = otherTableCell->node();
     for ( ; otherParentNode; otherParentNode = otherParentNode->parentNode()) {
         if (otherParentNode->hasTagName(theadTag) || otherParentNode->hasTagName(tbodyTag) || otherParentNode->hasTagName(tfootTag))
             break;
     }

     return otherParentNode == parentNode;
 }


 bool AccessibilityTableCell::isTableCellInSameColGroup(AccessibilityTableCell* tableCell)
 {
     std::pair<unsigned, unsigned> colRange;
     columnIndexRange(colRange);

     std::pair<unsigned, unsigned> otherColRange;
     tableCell->columnIndexRange(otherColRange);

     if (colRange.first <= (otherColRange.first + otherColRange.second))
         return true;
     return false;
 }

 String AccessibilityTableCell::expandedTextValue() const
 {
     return getAttribute(abbrAttr);
 }

 bool AccessibilityTableCell::supportsExpandedTextValue() const
 {
     return isTableHeaderCell() && hasAttribute(abbrAttr);
 }

 void AccessibilityTableCell::columnHeaders(AccessibilityChildrenVector& headers)
 {
     AccessibilityTable* parent = parentTable();
     if (!parent)
         return;

     // Choose columnHeaders as the place where the "headers" attribute is reported.
     ariaElementsFromAttribute(headers, headersAttr);
     // If the headers attribute returned valid values, then do not further search for column headers.
     if (!headers.isEmpty())
         return;

     std::pair<unsigned, unsigned> rowRange;
     rowIndexRange(rowRange);

     std::pair<unsigned, unsigned> colRange;
     columnIndexRange(colRange);

     for (unsigned row = 0; row < rowRange.first; row++) {
         AccessibilityTableCell* tableCell = parent->cellForColumnAndRow(colRange.first, row);
         if (!tableCell || tableCell == this || headers.contains(tableCell))
             continue;

         std::pair<unsigned, unsigned> childRowRange;
         tableCell->rowIndexRange(childRowRange);

         const AtomString& scope = tableCell->getAttribute(scopeAttr);
         if (scope == "colgroup" && isTableCellInSameColGroup(tableCell))
             headers.append(tableCell);
         else if (tableCell->isColumnHeaderCell())
             headers.append(tableCell);
     }
 }

 void AccessibilityTableCell::rowHeaders(AccessibilityChildrenVector& headers)
 {
     AccessibilityTable* parent = parentTable();
     if (!parent)
         return;

     std::pair<unsigned, unsigned> rowRange;
     rowIndexRange(rowRange);

     std::pair<unsigned, unsigned> colRange;
     columnIndexRange(colRange);

     for (unsigned column = 0; column < colRange.first; column++) {
         AccessibilityTableCell* tableCell = parent->cellForColumnAndRow(column, rowRange.first);
         if (!tableCell || tableCell == this || headers.contains(tableCell))
             continue;

         const AtomString& scope = tableCell->getAttribute(scopeAttr);
         if (scope == "rowgroup" && isTableCellInSameRowGroup(tableCell))
             headers.append(tableCell);
         else if (tableCell->isRowHeaderCell())
             headers.append(tableCell);
     }
 }

 AccessibilityTableRow* AccessibilityTableCell::parentRow() const
 {
     AXCoreObject* parent = parentObjectUnignored();
     if (!is<AccessibilityTableRow>(*parent))
         return nullptr;
     return downcast<AccessibilityTableRow>(parent);
 }

 void AccessibilityTableCell::rowIndexRange(std::pair<unsigned, unsigned>& rowRange) const
 {
     if (!is<RenderTableCell>(renderer()))
         return;

     RenderTableCell& renderCell = downcast<RenderTableCell>(*m_renderer);

     // ARIA 1.1's aria-rowspan attribute is intended for cells and gridcells which are not contained
     // in a native table. But if we have a valid author-provided value and do not have an explicit
     // native host language value for the rowspan, expose the ARIA value.
     rowRange.second = axRowSpan();
     if (static_cast<int>(rowRange.second) == -1)
         rowRange.second = renderCell.rowSpan();

     if (AccessibilityTableRow* parentRow = this->parentRow())
         rowRange.first = parentRow->rowIndex();
 }

 void AccessibilityTableCell::columnIndexRange(std::pair<unsigned, unsigned>& columnRange) const
 {
     if (!is<RenderTableCell>(renderer()))
         return;

     const RenderTableCell& cell = downcast<RenderTableCell>(*m_renderer);
     columnRange.first = cell.table()->colToEffCol(cell.col());

     // ARIA 1.1's aria-colspan attribute is intended for cells and gridcells which are not contained
     // in a native table. But if we have a valid author-provided value and do not have an explicit
     // native host language value for the colspan, expose the ARIA value.
     columnRange.second = axColumnSpan();
     if (static_cast<int>(columnRange.second) != -1)
         return;

     columnRange.second = cell.table()->colToEffCol(cell.col() + cell.colSpan()) - columnRange.first;
 }

 AccessibilityObject* AccessibilityTableCell::titleUIElement() const
 {
     // Try to find if the first cell in this row is a <th>. If it is,
     // then it can act as the title ui element. (This is only in the
     // case when the table is not appearing as an AXTable.)
     if (isTableCell() || !is<RenderTableCell>(renderer()))
         return nullptr;

     // Table cells that are th cannot have title ui elements, since by definition
     // they are title ui elements
     Node* node = m_renderer->node();
     if (node && node->hasTagName(thTag))
         return nullptr;

     RenderTableCell& renderCell = downcast<RenderTableCell>(*m_renderer);

     // If this cell is in the first column, there is no need to continue.
     int col = renderCell.col();
     if (!col)
         return nullptr;

     int row = renderCell.rowIndex();

     RenderTableSection* section = renderCell.section();
     if (!section)
         return nullptr;

     RenderTableCell* headerCell = section->primaryCellAt(row, 0);
     if (!headerCell || headerCell == &renderCell)
         return nullptr;

     if (!headerCell->element() || !headerCell->element()->hasTagName(thTag))
         return nullptr;

     return axObjectCache()->getOrCreate(headerCell);
 }

 int AccessibilityTableCell::axColumnIndex() const
 {
     const AtomString& colIndexValue = getAttribute(aria_colindexAttr);
     if (colIndexValue.toInt() >= 1)
         return colIndexValue.toInt();

     // "ARIA 1.1: If the set of columns which is present in the DOM is contiguous, and if there are no cells which span more than one row
     // or column in that set, then authors may place aria-colindex on each row, setting the value to the index of the first column of the set."
     // Here, we let its parent row to set its index beforehand, so we don't have to go through the siblings to calculate the index.
     AccessibilityTableRow* parentRow = this->parentRow();
     if (parentRow && m_axColIndexFromRow != -1)
         return m_axColIndexFromRow;

     return -1;
 }

 int AccessibilityTableCell::axRowIndex() const
 {
     // ARIA 1.1: Authors should place aria-rowindex on each row. Authors may also place
     // aria-rowindex on all of the children or owned elements of each row.
     const AtomString& rowIndexValue = getAttribute(aria_rowindexAttr);
     if (rowIndexValue.toInt() >= 1)
         return rowIndexValue.toInt();

     if (AccessibilityTableRow* parentRow = this->parentRow())
         return parentRow->axRowIndex();

     return -1;
 }

 int AccessibilityTableCell::axColumnSpan() const
 {
     // According to the ARIA spec, "If aria-colpan is used on an element for which the host language
     // provides an equivalent attribute, user agents must ignore the value of aria-colspan."
     if (hasAttribute(colspanAttr))
         return -1;

     const AtomString& colSpanValue = getAttribute(aria_colspanAttr);
     // ARIA 1.1: Authors must set the value of aria-colspan to an integer greater than or equal to 1.
     if (colSpanValue.toInt() >= 1)
         return colSpanValue.toInt();

     return -1;
 }

 int AccessibilityTableCell::axRowSpan() const
 {
     // According to the ARIA spec, "If aria-rowspan is used on an element for which the host language
     // provides an equivalent attribute, user agents must ignore the value of aria-rowspan."
     if (hasAttribute(rowspanAttr))
         return -1;

     const AtomString& rowSpanValue = getAttribute(aria_rowspanAttr);

     // ARIA 1.1: Authors must set the value of aria-rowspan to an integer greater than or equal to 0.
     // Setting the value to 0 indicates that the cell or gridcell is to span all the remaining rows in the row group.
     if (rowSpanValue == "0")
         return 0;
     if (rowSpanValue.toInt() >= 1)
         return rowSpanValue.toInt();

     return -1;
 }

 } // namespace WebCore
	/*
	* Copyright (C) 2008 Apple Inc. 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 Apple Inc. ("Apple") 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 APPLE AND ITS 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 APPLE OR ITS 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.
	*/

	#include "config.h"
	#include "AccessibilityTableCell.h"

	#include "AXObjectCache.h"
	#include "AccessibilityTable.h"
	#include "AccessibilityTableRow.h"
	#include "ElementIterator.h"
	#include "HTMLElement.h"
	#include "HTMLNames.h"
	#include "RenderObject.h"
	#include "RenderTableCell.h"

	namespace WebCore {

	using namespace HTMLNames;

	AccessibilityTableCell::AccessibilityTableCell(RenderObject* renderer)
	: AccessibilityRenderObject(renderer)
	, m_axColIndexFromRow(-1)
	{
	}

	AccessibilityTableCell::~AccessibilityTableCell() = default;

	Ref<AccessibilityTableCell> AccessibilityTableCell::create(RenderObject* renderer)
	{
	return adoptRef(*new AccessibilityTableCell(renderer));
	}

	bool AccessibilityTableCell::computeAccessibilityIsIgnored() const
	{
	AccessibilityObjectInclusion decision = defaultObjectInclusion();
	if (decision == AccessibilityObjectInclusion::IncludeObject)
	return false;
	if (decision == AccessibilityObjectInclusion::IgnoreObject)
	return true;

	// Ignore anonymous table cells as long as they're not in a table (ie. when display:table is used).
	RenderObject* renderTable = is<RenderTableCell>(renderer()) ? downcast<RenderTableCell>(*m_renderer).table() : nullptr;
	bool inTable = renderTable && renderTable->node() && (renderTable->node()->hasTagName(tableTag) \|\| nodeHasRole(renderTable->node(), "grid"));
	if (!node() && !inTable)
	return true;

	if (!isTableCell())
	return AccessibilityRenderObject::computeAccessibilityIsIgnored();

	return false;
	}

	AccessibilityTable* AccessibilityTableCell::parentTable() const
	{
	if (!is<RenderTableCell>(renderer()))
	return nullptr;

	// If the document no longer exists, we might not have an axObjectCache.
	if (!axObjectCache())
	return nullptr;

	// Do not use getOrCreate. parentTable() can be called while the render tree is being modified
	// by javascript, and creating a table element may try to access the render tree while in a bad state.
	// By using only get() implies that the AXTable must be created before AXTableCells. This should
	// always be the case when AT clients access a table.
	// https://bugs.webkit.org/show_bug.cgi?id=42652
	AccessibilityObject* parentTable = axObjectCache()->get(downcast<RenderTableCell>(*m_renderer).table());
	if (!is<AccessibilityTable>(parentTable))
	return nullptr;

	// The RenderTableCell's table() object might be anonymous sometimes. We should handle it gracefully
	// by finding the right table.
	if (!parentTable->node()) {
	for (AccessibilityObject* parent = parentObject(); parent; parent = parent->parentObject()) {
	// If this is a non-anonymous table object, but not an accessibility table, we should stop because
	// we don't want to choose another ancestor table as this cell's table.
	if (is<AccessibilityTable>(*parent)) {
	auto& parentTable = downcast<AccessibilityTable>(*parent);
	if (parentTable.isExposableThroughAccessibility())
	return &parentTable;
	if (parentTable.node())
	break;
	}
	}
	return nullptr;
	}

	return downcast<AccessibilityTable>(parentTable);
	}

	bool AccessibilityTableCell::isTableCell() const
	{
	// If the parent table is an accessibility table, then we are a table cell.
	// This used to check if the unignoredParent was a row, but that exploded performance if
	// this was in nested tables. This check should be just as good.
	AccessibilityObject* parentTable = this->parentTable();
	return is<AccessibilityTable>(parentTable) && downcast<AccessibilityTable>(*parentTable).isExposableThroughAccessibility();
	}

	AccessibilityRole AccessibilityTableCell::determineAccessibilityRole()
	{
	// AccessibilityRenderObject::determineAccessibleRole provides any ARIA-supplied
	// role, falling back on the role to be used if we determine here that the element
	// should not be exposed as a cell. Thus if we already know it's a cell, return that.
	AccessibilityRole defaultRole = AccessibilityRenderObject::determineAccessibilityRole();
	if (defaultRole == AccessibilityRole::ColumnHeader \|\| defaultRole == AccessibilityRole::RowHeader \|\| defaultRole == AccessibilityRole::Cell \|\| defaultRole == AccessibilityRole::GridCell)
	return defaultRole;

	if (!isTableCell())
	return defaultRole;
	if (isColumnHeaderCell())
	return AccessibilityRole::ColumnHeader;
	if (isRowHeaderCell())
	return AccessibilityRole::RowHeader;

	return AccessibilityRole::Cell;
	}

	bool AccessibilityTableCell::isTableHeaderCell() const
	{
	return node() && node()->hasTagName(thTag);
	}

	bool AccessibilityTableCell::isColumnHeaderCell() const
	{
	const AtomString& scope = getAttribute(scopeAttr);
	if (scope == "col" \|\| scope == "colgroup")
	return true;
	if (scope == "row" \|\| scope == "rowgroup")
	return false;
	if (!isTableHeaderCell())
	return false;

	// We are in a situation after checking the scope attribute.
	// It is an attempt to resolve the type of th element without support in the specification.
	// Checking tableTag and tbodyTag allows to check the case of direct row placement in the table and lets stop the loop at the table level.
	for (Node* parentNode = node(); parentNode; parentNode = parentNode->parentNode()) {
	if (parentNode->hasTagName(theadTag))
	return true;
	if (parentNode->hasTagName(tfootTag))
	return false;
	if (parentNode->hasTagName(tableTag) \|\| parentNode->hasTagName(tbodyTag)) {
	std::pair<unsigned, unsigned> rowRange;
	rowIndexRange(rowRange);
	if (!rowRange.first)
	return true;
	return false;
	}
	}
	return false;
	}

	bool AccessibilityTableCell::isRowHeaderCell() const
	{
	const AtomString& scope = getAttribute(scopeAttr);
	if (scope == "row" \|\| scope == "rowgroup")
	return true;
	if (scope == "col" \|\| scope == "colgroup")
	return false;
	if (!isTableHeaderCell())
	return false;

	// We are in a situation after checking the scope attribute.
	// It is an attempt to resolve the type of th element without support in the specification.
	// Checking tableTag allows to check the case of direct row placement in the table and lets stop the loop at the table level.
	for (Node* parentNode = node(); parentNode; parentNode = parentNode->parentNode()) {
	if (parentNode->hasTagName(tfootTag) \|\| parentNode->hasTagName(tbodyTag) \|\| parentNode->hasTagName(tableTag)) {
	std::pair<unsigned, unsigned> colRange;
	columnIndexRange(colRange);
	if (!colRange.first)
	return true;
	return false;
	}
	if (parentNode->hasTagName(theadTag))
	return false;
	}
	return false;
	}

	bool AccessibilityTableCell::isTableCellInSameRowGroup(AccessibilityTableCell* otherTableCell)
	{
	Node* parentNode = node();
	for ( ; parentNode; parentNode = parentNode->parentNode()) {
	if (parentNode->hasTagName(theadTag) \|\| parentNode->hasTagName(tbodyTag) \|\| parentNode->hasTagName(tfootTag))
	break;
	}

	Node* otherParentNode = otherTableCell->node();
	for ( ; otherParentNode; otherParentNode = otherParentNode->parentNode()) {
	if (otherParentNode->hasTagName(theadTag) \|\| otherParentNode->hasTagName(tbodyTag) \|\| otherParentNode->hasTagName(tfootTag))
	break;
	}

	return otherParentNode == parentNode;
	}


	bool AccessibilityTableCell::isTableCellInSameColGroup(AccessibilityTableCell* tableCell)
	{
	std::pair<unsigned, unsigned> colRange;
	columnIndexRange(colRange);

	std::pair<unsigned, unsigned> otherColRange;
	tableCell->columnIndexRange(otherColRange);

	if (colRange.first <= (otherColRange.first + otherColRange.second))
	return true;
	return false;
	}

	String AccessibilityTableCell::expandedTextValue() const
	{
	return getAttribute(abbrAttr);
	}

	bool AccessibilityTableCell::supportsExpandedTextValue() const
	{
	return isTableHeaderCell() && hasAttribute(abbrAttr);
	}

	void AccessibilityTableCell::columnHeaders(AccessibilityChildrenVector& headers)
	{
	AccessibilityTable* parent = parentTable();
	if (!parent)
	return;

	// Choose columnHeaders as the place where the "headers" attribute is reported.
	ariaElementsFromAttribute(headers, headersAttr);
	// If the headers attribute returned valid values, then do not further search for column headers.
	if (!headers.isEmpty())
	return;

	std::pair<unsigned, unsigned> rowRange;
	rowIndexRange(rowRange);

	std::pair<unsigned, unsigned> colRange;
	columnIndexRange(colRange);

	for (unsigned row = 0; row < rowRange.first; row++) {
	AccessibilityTableCell* tableCell = parent->cellForColumnAndRow(colRange.first, row);
	if (!tableCell \|\| tableCell == this \|\| headers.contains(tableCell))
	continue;

	std::pair<unsigned, unsigned> childRowRange;
	tableCell->rowIndexRange(childRowRange);

	const AtomString& scope = tableCell->getAttribute(scopeAttr);
	if (scope == "colgroup" && isTableCellInSameColGroup(tableCell))
	headers.append(tableCell);
	else if (tableCell->isColumnHeaderCell())
	headers.append(tableCell);
	}
	}

	void AccessibilityTableCell::rowHeaders(AccessibilityChildrenVector& headers)
	{
	AccessibilityTable* parent = parentTable();
	if (!parent)
	return;

	std::pair<unsigned, unsigned> rowRange;
	rowIndexRange(rowRange);

	std::pair<unsigned, unsigned> colRange;
	columnIndexRange(colRange);

	for (unsigned column = 0; column < colRange.first; column++) {
	AccessibilityTableCell* tableCell = parent->cellForColumnAndRow(column, rowRange.first);
	if (!tableCell \|\| tableCell == this \|\| headers.contains(tableCell))
	continue;

	const AtomString& scope = tableCell->getAttribute(scopeAttr);
	if (scope == "rowgroup" && isTableCellInSameRowGroup(tableCell))
	headers.append(tableCell);
	else if (tableCell->isRowHeaderCell())
	headers.append(tableCell);
	}
	}

	AccessibilityTableRow* AccessibilityTableCell::parentRow() const
	{
	AXCoreObject* parent = parentObjectUnignored();
	if (!is<AccessibilityTableRow>(*parent))
	return nullptr;
	return downcast<AccessibilityTableRow>(parent);
	}

	void AccessibilityTableCell::rowIndexRange(std::pair<unsigned, unsigned>& rowRange) const
	{
	if (!is<RenderTableCell>(renderer()))
	return;

	RenderTableCell& renderCell = downcast<RenderTableCell>(*m_renderer);

	// ARIA 1.1's aria-rowspan attribute is intended for cells and gridcells which are not contained
	// in a native table. But if we have a valid author-provided value and do not have an explicit
	// native host language value for the rowspan, expose the ARIA value.
	rowRange.second = axRowSpan();
	if (static_cast<int>(rowRange.second) == -1)
	rowRange.second = renderCell.rowSpan();

	if (AccessibilityTableRow* parentRow = this->parentRow())
	rowRange.first = parentRow->rowIndex();
	}

	void AccessibilityTableCell::columnIndexRange(std::pair<unsigned, unsigned>& columnRange) const
	{
	if (!is<RenderTableCell>(renderer()))
	return;

	const RenderTableCell& cell = downcast<RenderTableCell>(*m_renderer);
	columnRange.first = cell.table()->colToEffCol(cell.col());

	// ARIA 1.1's aria-colspan attribute is intended for cells and gridcells which are not contained
	// in a native table. But if we have a valid author-provided value and do not have an explicit
	// native host language value for the colspan, expose the ARIA value.
	columnRange.second = axColumnSpan();
	if (static_cast<int>(columnRange.second) != -1)
	return;

	columnRange.second = cell.table()->colToEffCol(cell.col() + cell.colSpan()) - columnRange.first;
	}

	AccessibilityObject* AccessibilityTableCell::titleUIElement() const
	{
	// Try to find if the first cell in this row is a <th>. If it is,
	// then it can act as the title ui element. (This is only in the
	// case when the table is not appearing as an AXTable.)
	if (isTableCell() \|\| !is<RenderTableCell>(renderer()))
	return nullptr;

	// Table cells that are th cannot have title ui elements, since by definition
	// they are title ui elements
	Node* node = m_renderer->node();
	if (node && node->hasTagName(thTag))
	return nullptr;

	RenderTableCell& renderCell = downcast<RenderTableCell>(*m_renderer);

	// If this cell is in the first column, there is no need to continue.
	int col = renderCell.col();
	if (!col)
	return nullptr;

	int row = renderCell.rowIndex();

	RenderTableSection* section = renderCell.section();
	if (!section)
	return nullptr;

	RenderTableCell* headerCell = section->primaryCellAt(row, 0);
	if (!headerCell \|\| headerCell == &renderCell)
	return nullptr;

	if (!headerCell->element() \|\| !headerCell->element()->hasTagName(thTag))
	return nullptr;

	return axObjectCache()->getOrCreate(headerCell);
	}

	int AccessibilityTableCell::axColumnIndex() const
	{
	const AtomString& colIndexValue = getAttribute(aria_colindexAttr);
	if (colIndexValue.toInt() >= 1)
	return colIndexValue.toInt();

	// "ARIA 1.1: If the set of columns which is present in the DOM is contiguous, and if there are no cells which span more than one row
	// or column in that set, then authors may place aria-colindex on each row, setting the value to the index of the first column of the set."
	// Here, we let its parent row to set its index beforehand, so we don't have to go through the siblings to calculate the index.
	AccessibilityTableRow* parentRow = this->parentRow();
	if (parentRow && m_axColIndexFromRow != -1)
	return m_axColIndexFromRow;

	return -1;
	}

	int AccessibilityTableCell::axRowIndex() const
	{
	// ARIA 1.1: Authors should place aria-rowindex on each row. Authors may also place
	// aria-rowindex on all of the children or owned elements of each row.
	const AtomString& rowIndexValue = getAttribute(aria_rowindexAttr);
	if (rowIndexValue.toInt() >= 1)
	return rowIndexValue.toInt();

	if (AccessibilityTableRow* parentRow = this->parentRow())
	return parentRow->axRowIndex();

	return -1;
	}

	int AccessibilityTableCell::axColumnSpan() const
	{
	// According to the ARIA spec, "If aria-colpan is used on an element for which the host language
	// provides an equivalent attribute, user agents must ignore the value of aria-colspan."
	if (hasAttribute(colspanAttr))
	return -1;

	const AtomString& colSpanValue = getAttribute(aria_colspanAttr);
	// ARIA 1.1: Authors must set the value of aria-colspan to an integer greater than or equal to 1.
	if (colSpanValue.toInt() >= 1)
	return colSpanValue.toInt();

	return -1;
	}

	int AccessibilityTableCell::axRowSpan() const
	{
	// According to the ARIA spec, "If aria-rowspan is used on an element for which the host language
	// provides an equivalent attribute, user agents must ignore the value of aria-rowspan."
	if (hasAttribute(rowspanAttr))
	return -1;

	const AtomString& rowSpanValue = getAttribute(aria_rowspanAttr);

	// ARIA 1.1: Authors must set the value of aria-rowspan to an integer greater than or equal to 0.
	// Setting the value to 0 indicates that the cell or gridcell is to span all the remaining rows in the row group.
	if (rowSpanValue == "0")
	return 0;
	if (rowSpanValue.toInt() >= 1)
	return rowSpanValue.toInt();

	return -1;
	}

	} // namespace WebCore