AccessibilityTable.cpp   [plain text]

/*
 * Copyright (C) 2008 Apple Inc. All rights reserved.
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 * 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.
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 *     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 Computer, 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;
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#include "config.h"
#include "AccessibilityTable.h"

#include "AXObjectCache.h"
#include "AccessibilityTableCell.h"
#include "AccessibilityTableColumn.h"
#include "AccessibilityTableHeaderContainer.h"
#include "AccessibilityTableRow.h"
#include "HTMLNames.h"
#include "HTMLTableCaptionElement.h"
#include "HTMLTableCellElement.h"
#include "HTMLTableElement.h"
#include "RenderObject.h"
#include "RenderTable.h"
#include "RenderTableCell.h"
#include "RenderTableSection.h"

namespace WebCore {

using namespace HTMLNames;

AccessibilityTable::AccessibilityTable(RenderObject* renderer)
    : AccessibilityRenderObject(renderer)
    , m_headerContainer(0)
    , m_isAccessibilityTable(true)
{
}

AccessibilityTable::~AccessibilityTable()
{
}

void AccessibilityTable::init()
{
    AccessibilityRenderObject::init();
    m_isAccessibilityTable = isTableExposableThroughAccessibility();
}

PassRefPtr<AccessibilityTable> AccessibilityTable::create(RenderObject* renderer)
{
    return adoptRef(new AccessibilityTable(renderer));
}

bool AccessibilityTable::hasARIARole() const
{
    if (!m_renderer)
        return false;
    
    AccessibilityRole ariaRole = ariaRoleAttribute();
    if (ariaRole != UnknownRole)
        return true;

    return false;
}

bool AccessibilityTable::isAccessibilityTable() const
{
    if (!m_renderer)
        return false;
    
    return m_isAccessibilityTable;
}

bool AccessibilityTable::isDataTable() const
{
    if (!m_renderer)
        return false;

    // Do not consider it a data table is it has an ARIA role.
    if (hasARIARole())
        return false;

    // When a section of the document is contentEditable, all tables should be
    // treated as data tables, otherwise users may not be able to work with rich
    // text editors that allow creating and editing tables.
    if (node() && node()->rendererIsEditable())
        return true;

    // This employs a heuristic to determine if this table should appear.
    // Only "data" tables should be exposed as tables.
    // Unfortunately, there is no good way to determine the difference
    // between a "layout" table and a "data" table.
    
    RenderTable* table = toRenderTable(m_renderer);
    Node* tableNode = table->node();
    if (!tableNode || !tableNode->hasTagName(tableTag))
        return false;

    // if there is a caption element, summary, THEAD, or TFOOT section, it's most certainly a data table
    HTMLTableElement* tableElement = static_cast<HTMLTableElement*>(tableNode);
    if (!tableElement->summary().isEmpty() || tableElement->tHead() || tableElement->tFoot() || tableElement->caption())
        return true;
    
    // if someone used "rules" attribute than the table should appear
    if (!tableElement->rules().isEmpty())
        return true;    

    // if there's a colgroup or col element, it's probably a data table.
    for (Node* child = tableElement->firstChild(); child; child = child->nextSibling()) {
        if (child->hasTagName(colTag) || child->hasTagName(colgroupTag))
            return true;
    }
    
    // go through the cell's and check for tell-tale signs of "data" table status
    // cells have borders, or use attributes like headers, abbr, scope or axis
    table->recalcSectionsIfNeeded();
    RenderTableSection* firstBody = table->firstBody();
    if (!firstBody)
        return false;
    
    int numCols = firstBody->numColumns();
    int numRows = firstBody->numRows();
    
    // If there's only one cell, it's not a good AXTable candidate.
    if (numRows == 1 && numCols == 1)
        return false;

    // If there are at least 20 rows, we'll call it a data table.
    if (numRows >= 20)
        return true;
    
    // Store the background color of the table to check against cell's background colors.
    RenderStyle* tableStyle = table->style();
    if (!tableStyle)
        return false;
    Color tableBGColor = tableStyle->visitedDependentColor(CSSPropertyBackgroundColor);
    
    // check enough of the cells to find if the table matches our criteria
    // Criteria: 
    //   1) must have at least one valid cell (and)
    //   2) at least half of cells have borders (or)
    //   3) at least half of cells have different bg colors than the table, and there is cell spacing
    unsigned validCellCount = 0;
    unsigned borderedCellCount = 0;
    unsigned backgroundDifferenceCellCount = 0;
    unsigned cellsWithTopBorder = 0;
    unsigned cellsWithBottomBorder = 0;
    unsigned cellsWithLeftBorder = 0;
    unsigned cellsWithRightBorder = 0;
    
    Color alternatingRowColors[5];
    int alternatingRowColorCount = 0;
    
    int headersInFirstColumnCount = 0;
    for (int row = 0; row < numRows; ++row) {
    
        int headersInFirstRowCount = 0;
        for (int col = 0; col < numCols; ++col) {    
            RenderTableCell* cell = firstBody->primaryCellAt(row, col);
            if (!cell)
                continue;
            Node* cellNode = cell->node();
            if (!cellNode || !cellNode->isElementNode())
                continue;
            
            if (cell->width() < 1 || cell->height() < 1)
                continue;
            
            validCellCount++;
            
            Element* cellElement = toElement(cellNode);
            
            bool isTHCell = cellElement->hasTagName(thTag);
            // If the first row is comprised of all <th> tags, assume it is a data table.
            if (!row && isTHCell)
                headersInFirstRowCount++;

            // If the first column is comprised of all <th> tags, assume it is a data table.
            if (!col && isTHCell)
                headersInFirstColumnCount++;
            
            // in this case, the developer explicitly assigned a "data" table attribute
            if (cellElement->hasTagName(tdTag) || cellElement->hasTagName(thTag)) {
                HTMLTableCellElement* tableCellElement = toHTMLTableCellElement(cellElement);
                if (!tableCellElement->headers().isEmpty() || !tableCellElement->abbr().isEmpty()
                    || !tableCellElement->axis().isEmpty() || !tableCellElement->scope().isEmpty())
                    return true;
            }
            
            RenderStyle* renderStyle = cell->style();
            if (!renderStyle)
                continue;

            // If the empty-cells style is set, we'll call it a data table.
            if (renderStyle->emptyCells() == HIDE)
                return true;

            // If a cell has matching bordered sides, call it a (fully) bordered cell.
            if ((cell->borderTop() > 0 && cell->borderBottom() > 0)
                || (cell->borderLeft() > 0 && cell->borderRight() > 0))
                borderedCellCount++;

            // Also keep track of each individual border, so we can catch tables where most
            // cells have a bottom border, for example.
            if (cell->borderTop() > 0)
                cellsWithTopBorder++;
            if (cell->borderBottom() > 0)
                cellsWithBottomBorder++;
            if (cell->borderLeft() > 0)
                cellsWithLeftBorder++;
            if (cell->borderRight() > 0)
                cellsWithRightBorder++;
            
            // If the cell has a different color from the table and there is cell spacing,
            // then it is probably a data table cell (spacing and colors take the place of borders).
            Color cellColor = renderStyle->visitedDependentColor(CSSPropertyBackgroundColor);
            if (table->hBorderSpacing() > 0 && table->vBorderSpacing() > 0
                && tableBGColor != cellColor && cellColor.alpha() != 1)
                backgroundDifferenceCellCount++;
            
            // If we've found 10 "good" cells, we don't need to keep searching.
            if (borderedCellCount >= 10 || backgroundDifferenceCellCount >= 10)
                return true;
            
            // For the first 5 rows, cache the background color so we can check if this table has zebra-striped rows.
            if (row < 5 && row == alternatingRowColorCount) {
                RenderObject* renderRow = cell->parent();
                if (!renderRow || !renderRow->isBoxModelObject() || !toRenderBoxModelObject(renderRow)->isTableRow())
                    continue;
                RenderStyle* rowRenderStyle = renderRow->style();
                if (!rowRenderStyle)
                    continue;
                Color rowColor = rowRenderStyle->visitedDependentColor(CSSPropertyBackgroundColor);
                alternatingRowColors[alternatingRowColorCount] = rowColor;
                alternatingRowColorCount++;
            }
        }
        
        if (!row && headersInFirstRowCount == numCols && numCols > 1)
            return true;
    }

    if (headersInFirstColumnCount == numRows && numRows > 1)
        return true;
    
    // if there is less than two valid cells, it's not a data table
    if (validCellCount <= 1)
        return false;
    
    // half of the cells had borders, it's a data table
    unsigned neededCellCount = validCellCount / 2;
    if (borderedCellCount >= neededCellCount
        || cellsWithTopBorder >= neededCellCount
        || cellsWithBottomBorder >= neededCellCount
        || cellsWithLeftBorder >= neededCellCount
        || cellsWithRightBorder >= neededCellCount)
        return true;
    
    // half had different background colors, it's a data table
    if (backgroundDifferenceCellCount >= neededCellCount)
        return true;

    // Check if there is an alternating row background color indicating a zebra striped style pattern.
    if (alternatingRowColorCount > 2) {
        Color firstColor = alternatingRowColors[0];
        for (int k = 1; k < alternatingRowColorCount; k++) {
            // If an odd row was the same color as the first row, its not alternating.
            if (k % 2 == 1 && alternatingRowColors[k] == firstColor)
                return false;
            // If an even row is not the same as the first row, its not alternating.
            if (!(k % 2) && alternatingRowColors[k] != firstColor)
                return false;
        }
        return true;
    }
    
    return false;
}
    
bool AccessibilityTable::isTableExposableThroughAccessibility() const
{
    // The following is a heuristic used to determine if a
    // <table> should be exposed as an AXTable. The goal
    // is to only show "data" tables.

    if (!m_renderer)
        return false;

    // If the developer assigned an aria role to this, then we
    // shouldn't expose it as a table, unless, of course, the aria
    // role is a table.
    if (hasARIARole())
        return false;

    // Gtk+ ATs expect all tables to be exposed as tables.
#if PLATFORM(GTK)
    Node* tableNode = toRenderTable(m_renderer)->node();
    return tableNode && tableNode->hasTagName(tableTag);
#endif

    return isDataTable();
}

void AccessibilityTable::clearChildren()
{
    AccessibilityRenderObject::clearChildren();
    m_rows.clear();
    m_columns.clear();

    if (m_headerContainer) {
        m_headerContainer->detachFromParent();
        m_headerContainer = 0;
    }
}

void AccessibilityTable::addChildren()
{
    if (!isAccessibilityTable()) {
        AccessibilityRenderObject::addChildren();
        return;
    }
    
    ASSERT(!m_haveChildren); 
    
    m_haveChildren = true;
    if (!m_renderer || !m_renderer->isTable())
        return;
    
    RenderTable* table = toRenderTable(m_renderer);
    AXObjectCache* axCache = m_renderer->document()->axObjectCache();

    // Go through all the available sections to pull out the rows and add them as children.
    table->recalcSectionsIfNeeded();
    RenderTableSection* tableSection = table->topSection();
    if (!tableSection)
        return;
    
    unsigned maxColumnCount = 0;
    while (tableSection) {
        
        HashSet<AccessibilityObject*> appendedRows;
        unsigned numRows = tableSection->numRows();
        for (unsigned rowIndex = 0; rowIndex < numRows; ++rowIndex) {
            
            RenderTableRow* renderRow = tableSection->rowRendererAt(rowIndex);
            if (!renderRow)
                continue;
            
            AccessibilityObject* rowObject = axCache->getOrCreate(renderRow);
            if (!rowObject->isTableRow())
                continue;
            
            AccessibilityTableRow* row = static_cast<AccessibilityTableRow*>(rowObject);
            // We need to check every cell for a new row, because cell spans
            // can cause us to miss rows if we just check the first column.
            if (appendedRows.contains(row))
                continue;
            
            row->setRowIndex(static_cast<int>(m_rows.size()));
            m_rows.append(row);
            if (!row->accessibilityIsIgnored())
                m_children.append(row);
#if PLATFORM(GTK)
            else
                m_children.appendVector(row->children());
#endif
            appendedRows.add(row);
        }
    
        maxColumnCount = max(tableSection->numColumns(), maxColumnCount);
        tableSection = table->sectionBelow(tableSection, SkipEmptySections);
    }
    
    // make the columns based on the number of columns in the first body
    unsigned length = maxColumnCount;
    for (unsigned i = 0; i < length; ++i) {
        AccessibilityTableColumn* column = static_cast<AccessibilityTableColumn*>(axCache->getOrCreate(ColumnRole));
        column->setColumnIndex((int)i);
        column->setParent(this);
        m_columns.append(column);
        if (!column->accessibilityIsIgnored())
            m_children.append(column);
    }
    
    AccessibilityObject* headerContainerObject = headerContainer();
    if (headerContainerObject && !headerContainerObject->accessibilityIsIgnored())
        m_children.append(headerContainerObject);
}
    
AccessibilityObject* AccessibilityTable::headerContainer()
{
    if (m_headerContainer)
        return m_headerContainer.get();
    
    AccessibilityMockObject* tableHeader = toAccessibilityMockObject(axObjectCache()->getOrCreate(TableHeaderContainerRole));
    tableHeader->setParent(this);

    m_headerContainer = tableHeader;
    return m_headerContainer.get();
}

AccessibilityObject::AccessibilityChildrenVector& AccessibilityTable::columns()
{
    updateChildrenIfNecessary();
        
    return m_columns;
}

AccessibilityObject::AccessibilityChildrenVector& AccessibilityTable::rows()
{
    updateChildrenIfNecessary();
    
    return m_rows;
}
    
void AccessibilityTable::rowHeaders(AccessibilityChildrenVector& headers)
{
    if (!m_renderer)
        return;
    
    updateChildrenIfNecessary();
    
    unsigned rowCount = m_rows.size();
    for (unsigned k = 0; k < rowCount; ++k) {
        AccessibilityObject* header = static_cast<AccessibilityTableRow*>(m_rows[k].get())->headerObject();
        if (!header)
            continue;
        headers.append(header);
    }
}

void AccessibilityTable::columnHeaders(AccessibilityChildrenVector& headers)
{
    if (!m_renderer)
        return;
    
    updateChildrenIfNecessary();
    
    unsigned colCount = m_columns.size();
    for (unsigned k = 0; k < colCount; ++k) {
        AccessibilityObject* header = static_cast<AccessibilityTableColumn*>(m_columns[k].get())->headerObject();
        if (!header)
            continue;
        headers.append(header);
    }
}
    
void AccessibilityTable::cells(AccessibilityObject::AccessibilityChildrenVector& cells)
{
    if (!m_renderer)
        return;
    
    updateChildrenIfNecessary();
    
    for (size_t row = 0; row < m_rows.size(); ++row)
        cells.appendVector(m_rows[row]->children());
}
    
unsigned AccessibilityTable::columnCount()
{
    updateChildrenIfNecessary();
    
    return m_columns.size();    
}
    
unsigned AccessibilityTable::rowCount()
{
    updateChildrenIfNecessary();
    
    return m_rows.size();
}

int AccessibilityTable::tableLevel() const
{
    int level = 0;
    for (AccessibilityObject* obj = static_cast<AccessibilityObject*>(const_cast<AccessibilityTable*>(this)); obj; obj = obj->parentObject()) {
        if (obj->isAccessibilityTable())
            ++level;
    }
    
    return level;
}

AccessibilityTableCell* AccessibilityTable::cellForColumnAndRow(unsigned column, unsigned row)
{
    updateChildrenIfNecessary();
    if (column >= columnCount() || row >= rowCount())
        return 0;
    
    // Iterate backwards through the rows in case the desired cell has a rowspan and exists in a previous row.
    for (unsigned rowIndexCounter = row + 1; rowIndexCounter > 0; --rowIndexCounter) {
        unsigned rowIndex = rowIndexCounter - 1;
        AccessibilityChildrenVector children = m_rows[rowIndex]->children();
        // Since some cells may have colspans, we have to check the actual range of each
        // cell to determine which is the right one.
        for (unsigned colIndexCounter = std::min(static_cast<unsigned>(children.size()), column + 1); colIndexCounter > 0; --colIndexCounter) {
            unsigned colIndex = colIndexCounter - 1;
            AccessibilityObject* child = children[colIndex].get();
            ASSERT(child->isTableCell());
            if (!child->isTableCell())
                continue;
            
            pair<unsigned, unsigned> columnRange;
            pair<unsigned, unsigned> rowRange;
            AccessibilityTableCell* tableCellChild = static_cast<AccessibilityTableCell*>(child);
            tableCellChild->columnIndexRange(columnRange);
            tableCellChild->rowIndexRange(rowRange);
            
            if ((column >= columnRange.first && column < (columnRange.first + columnRange.second))
                && (row >= rowRange.first && row < (rowRange.first + rowRange.second)))
                return tableCellChild;
        }
    }
    
    return 0;
}

AccessibilityRole AccessibilityTable::roleValue() const
{
    if (!isAccessibilityTable())
        return AccessibilityRenderObject::roleValue();

    return TableRole;
}
    
bool AccessibilityTable::computeAccessibilityIsIgnored() const
{
    AccessibilityObjectInclusion decision = defaultObjectInclusion();
    if (decision == IncludeObject)
        return false;
    if (decision == IgnoreObject)
        return true;
    
    if (!isAccessibilityTable())
        return AccessibilityRenderObject::computeAccessibilityIsIgnored();
        
    return false;
}
    
String AccessibilityTable::title() const
{
    if (!isAccessibilityTable())
        return AccessibilityRenderObject::title();
    
    String title;
    if (!m_renderer)
        return title;
    
    // see if there is a caption
    Node* tableElement = m_renderer->node();
    if (tableElement && tableElement->hasTagName(tableTag)) {
        HTMLTableCaptionElement* caption = static_cast<HTMLTableElement*>(tableElement)->caption();
        if (caption)
            title = caption->innerText();
    }
    
    // try the standard 
    if (title.isEmpty())
        title = AccessibilityRenderObject::title();
    
    return title;
}

} // namespace WebCore