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()->hasEditableStyle())
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);
if (!table->element() || !isHTMLTableElement(table->element()))
return false;
// if there is a caption element, summary, THEAD, or TFOOT section, it's most certainly a data table
HTMLTableElement* tableElement = toHTMLTableElement(table->element());
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 (const auto& child : childrenOfType<Element>(*tableElement)) {
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.
const RenderStyle& tableStyle = table->style();
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;
Element* cellElement = cell->element();
if (!cellElement)
continue;
if (cell->width() < 1 || cell->height() < 1)
continue;
validCellCount++;
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;
}
const RenderStyle& renderStyle = cell->style();
// 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;
const RenderStyle& rowRenderStyle = renderRow->style();
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;
}
CollapsedBorderValue RenderTableCell::collapsedBeforeBorder() const
{
RenderTable* table = this->table();
// For before border, we need to check, in order of precedence:
// (1) Our before border.
int before = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderBeforeColor, table->style()->direction(), table->style()->writingMode());
int after = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderAfterColor, table->style()->direction(), table->style()->writingMode());
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderBefore(), style()->visitedDependentColor(before), BCELL);
RenderTableCell* prevCell = table->cellAbove(this);
if (prevCell) {
// (2) A before cell's after border.
result = chooseBorder(CollapsedBorderValue(&prevCell->style()->borderAfter(), prevCell->style()->visitedDependentColor(after), BCELL), result);
if (!result.exists())
return result;
}
// (3) Our row's before border.
result = chooseBorder(result, CollapsedBorderValue(&parent()->style()->borderBefore(), parent()->style()->visitedDependentColor(before), BROW));
if (!result.exists())
return result;
// (4) The previous row's after border.
if (prevCell) {
RenderObject* prevRow = 0;
if (prevCell->section() == section())
prevRow = parent()->previousSibling();
else
prevRow = prevCell->section()->lastChild();
if (prevRow) {
result = chooseBorder(CollapsedBorderValue(&prevRow->style()->borderAfter(), prevRow->style()->visitedDependentColor(after), BROW), result);
if (!result.exists())
return result;
}
}
// Now check row groups.
RenderTableSection* currSection = section();
if (!row()) {
// (5) Our row group's before border.
result = chooseBorder(result, CollapsedBorderValue(&currSection->style()->borderBefore(), currSection->style()->visitedDependentColor(before), BROWGROUP));
if (!result.exists())
return result;
// (6) Previous row group's after border.
currSection = table->sectionAbove(currSection);
if (currSection) {
result = chooseBorder(CollapsedBorderValue(&currSection->style()->borderAfter(), currSection->style()->visitedDependentColor(after), BROWGROUP), result);
if (!result.exists())
return result;
}
}
if (!currSection) {
// (8) Our column and column group's before borders.
RenderTableCol* colElt = table->colElement(col());
if (colElt) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->style()->borderBefore(), colElt->style()->visitedDependentColor(before), BCOL));
if (!result.exists())
return result;
if (colElt->parent()->isTableCol()) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->parent()->style()->borderBefore(), colElt->parent()->style()->visitedDependentColor(before), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (9) The table's before border.
result = chooseBorder(result, CollapsedBorderValue(&table->style()->borderBefore(), table->style()->visitedDependentColor(before), BTABLE));
if (!result.exists())
return result;
}
return result;
}
CollapsedBorderValue RenderTableCell::collapsedAfterBorder() const
{
RenderTable* table = this->table();
// For after border, we need to check, in order of precedence:
// (1) Our after border.
int before = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderBeforeColor, table->style()->direction(), table->style()->writingMode());
int after = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderAfterColor, table->style()->direction(), table->style()->writingMode());
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderAfter(), style()->visitedDependentColor(after), BCELL);
RenderTableCell* nextCell = table->cellBelow(this);
if (nextCell) {
// (2) An after cell's before border.
result = chooseBorder(result, CollapsedBorderValue(&nextCell->style()->borderBefore(), nextCell->style()->visitedDependentColor(before), BCELL));
if (!result.exists())
return result;
}
// (3) Our row's after border. (FIXME: Deal with rowspan!)
result = chooseBorder(result, CollapsedBorderValue(&parent()->style()->borderAfter(), parent()->style()->visitedDependentColor(after), BROW));
if (!result.exists())
return result;
// (4) The next row's before border.
if (nextCell) {
result = chooseBorder(result, CollapsedBorderValue(&nextCell->parent()->style()->borderBefore(), nextCell->parent()->style()->visitedDependentColor(before), BROW));
if (!result.exists())
return result;
}
// Now check row groups.
RenderTableSection* currSection = section();
if (row() + rowSpan() >= currSection->numRows()) {
// (5) Our row group's after border.
result = chooseBorder(result, CollapsedBorderValue(&currSection->style()->borderAfter(), currSection->style()->visitedDependentColor(after), BROWGROUP));
if (!result.exists())
return result;
// (6) Following row group's before border.
currSection = table->sectionBelow(currSection);
if (currSection) {
result = chooseBorder(result, CollapsedBorderValue(&currSection->style()->borderBefore(), currSection->style()->visitedDependentColor(before), BROWGROUP));
if (!result.exists())
return result;
}
}
if (!currSection) {
// (8) Our column and column group's after borders.
RenderTableCol* colElt = table->colElement(col());
if (colElt) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->style()->borderAfter(), colElt->style()->visitedDependentColor(after), BCOL));
if (!result.exists()) return result;
if (colElt->parent()->isTableCol()) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->parent()->style()->borderAfter(), colElt->parent()->style()->visitedDependentColor(after), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (9) The table's after border.
result = chooseBorder(result, CollapsedBorderValue(&table->style()->borderAfter(), table->style()->visitedDependentColor(after), BTABLE));
if (!result.exists())
return result;
}
return result;
}
int FixedTableLayout::calcWidthArray( int tableWidth )
{
int usedWidth = 0;
// iterate over all <col> elements
RenderObject *child = table->firstChild();
int cCol = 0;
int nEffCols = table->numEffCols();
width.resize( nEffCols );
width.fill( Length( Variable ) );
#ifdef DEBUG_LAYOUT
qDebug("FixedTableLayout::calcWidthArray( %d )", tableWidth );
qDebug(" col elements:");
#endif
Length grpWidth;
while ( child ) {
if ( child->isTableCol() ) {
RenderTableCol *col = static_cast<RenderTableCol *>(child);
int span = col->span();
if ( col->firstChild() ) {
grpWidth = col->style()->width();
} else {
Length w = col->style()->width();
if ( w.isVariable() )
w = grpWidth;
int effWidth = 0;
if ( w.isFixed() && w.value() > 0 ) {
effWidth = w.value();
effWidth = KMIN( effWidth, 32760 );
}
#ifdef DEBUG_LAYOUT
qDebug(" col element: effCol=%d, span=%d: %d w=%d type=%d",
cCol, span, effWidth, w.value, w.type);
#endif
int usedSpan = 0;
int i = 0;
while ( usedSpan < span ) {
if( cCol + i >= nEffCols ) {
table->appendColumn( span - usedSpan );
nEffCols++;
width.resize( nEffCols );
width[nEffCols-1] = Length();
}
int eSpan = table->spanOfEffCol( cCol+i );
if ( (w.isFixed() || w.isPercent()) && w.value() > 0 ) {
width[cCol+i] = Length( w.value() * eSpan, w.type() );
usedWidth += effWidth * eSpan;
#ifdef DEBUG_LAYOUT
qDebug(" setting effCol %d (span=%d) to width %d(type=%d)",
cCol+i, eSpan, width[cCol+i].value, width[cCol+i].type );
#endif
}
usedSpan += eSpan;
i++;
}
cCol += i;
}
} else {
break;
}
RenderObject *next = child->firstChild();
if ( !next )
next = child->nextSibling();
if ( !next && child->parent()->isTableCol() ) {
next = child->parent()->nextSibling();
grpWidth = Length();
}
child = next;
}
#ifdef DEBUG_LAYOUT
qDebug(" first row:");
#endif
// iterate over the first row in case some are unspecified.
RenderTableSection *section = table->head;
if ( !section )
section = table->firstBody;
if ( !section )
section = table->foot;
if ( section && section->firstChild() ) {
cCol = 0;
// get the first cell in the first row
child = section->firstChild()->firstChild();
while ( child ) {
if ( child->isTableCell() ) {
RenderTableCell *cell = static_cast<RenderTableCell *>(child);
Length w = cell->style()->width();
int span = cell->colSpan();
int effWidth = 0;
if ( (w.isFixed() || w.isPercent()) && w.value() > 0 ) {
effWidth = w.value();
effWidth = kMin( effWidth, 32760 );
}
#ifdef DEBUG_LAYOUT
qDebug(" table cell: effCol=%d, span=%d: %d", cCol, span, effWidth);
#endif
int usedSpan = 0;
int i = 0;
while ( usedSpan < span ) {
Q_ASSERT( cCol + i < nEffCols );
int eSpan = table->spanOfEffCol( cCol+i );
// only set if no col element has already set it.
if ( width[cCol+i].isVariable() && !w.isVariable() ) {
width[cCol+i] = Length( w.value()*eSpan, w.type() );
usedWidth += effWidth*eSpan;
#ifdef DEBUG_LAYOUT
qDebug(" setting effCol %d (span=%d) to width %d(type=%d)",
cCol+i, eSpan, width[cCol+i].value, width[cCol+i].type );
#endif
}
#ifdef DEBUG_LAYOUT
else {
qDebug(" width of col %d already defined (span=%d)", cCol, table->spanOfEffCol( cCol ) );
}
#endif
usedSpan += eSpan;
i++;
}
cCol += i;
} else {
Q_ASSERT( false );
}
child = child->nextSibling();
}
}
return usedWidth;
}
CollapsedBorderValue RenderTableCell::collapsedEndBorder() const
{
RenderTable* table = this->table();
bool isEndColumn = table->colToEffCol(col() + colSpan() - 1) == table->numEffCols() - 1;
// For end border, we need to check, in order of precedence:
// (1) Our end border.
int start = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderStartColor, table->style()->direction(), table->style()->writingMode());
int end = CSSProperty::resolveDirectionAwareProperty(CSSPropertyWebkitBorderEndColor, table->style()->direction(), table->style()->writingMode());
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderEnd(), style()->visitedDependentColor(end), BCELL);
// (2) The start border of the following cell.
if (!isEndColumn) {
RenderTableCell* nextCell = table->cellAfter(this);
if (nextCell && nextCell->style()) {
CollapsedBorderValue startBorder = CollapsedBorderValue(&nextCell->style()->borderStart(), nextCell->style()->visitedDependentColor(start), BCELL);
result = chooseBorder(result, startBorder);
if (!result.exists())
return result;
}
} else {
// (3) Our row's end border.
result = chooseBorder(result, CollapsedBorderValue(&parent()->style()->borderEnd(), parent()->style()->visitedDependentColor(end), BROW));
if (!result.exists())
return result;
// (4) Our row group's end border.
result = chooseBorder(result, CollapsedBorderValue(§ion()->style()->borderEnd(), section()->style()->visitedDependentColor(end), BROWGROUP));
if (!result.exists())
return result;
}
// (5) Our column and column group's end borders.
bool startColEdge;
bool endColEdge;
RenderTableCol* colElt = table->colElement(col() + colSpan() - 1, &startColEdge, &endColEdge);
if (colElt && endColEdge) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->style()->borderEnd(), colElt->style()->visitedDependentColor(end), BCOL));
if (!result.exists())
return result;
if (colElt->parent()->isTableCol() && !colElt->nextSibling()) {
result = chooseBorder(result, CollapsedBorderValue(&colElt->parent()->style()->borderEnd(), colElt->parent()->style()->visitedDependentColor(end), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (6) The start border of the next column.
if (!isEndColumn) {
colElt = table->colElement(col() + colSpan(), &startColEdge, &endColEdge);
if (colElt && startColEdge) {
CollapsedBorderValue startBorder = CollapsedBorderValue(&colElt->style()->borderStart(), colElt->style()->visitedDependentColor(start), BCOL);
result = chooseBorder(result, startBorder);
if (!result.exists())
return result;
}
} else {
// (7) The table's end border.
result = chooseBorder(result, CollapsedBorderValue(&table->style()->borderEnd(), table->style()->visitedDependentColor(end), BTABLE));
if (!result.exists())
return result;
}
return result;
}
/* recalculates the full structure needed to do layouting and minmax calculations.
This is usually calculated on the fly, but needs to be done fully when table cells change
dynamically
*/
void AutoTableLayout::recalcColumn( int effCol )
{
Layout &l = layoutStruct[effCol];
RenderObject *child = table->firstChild();
// first we iterate over all rows.
RenderTableCell *fixedContributor = 0;
RenderTableCell *maxContributor = 0;
while ( child ) {
if ( child->isTableSection() ) {
RenderTableSection *section = static_cast<RenderTableSection *>(child);
int numRows = section->numRows();
RenderTableCell *last = 0;
for ( int i = 0; i < numRows; i++ ) {
RenderTableCell *cell = section->cellAt( i, effCol );
if ( cell == (RenderTableCell *)-1 )
continue;
if ( cell && cell->colSpan() == 1 ) {
if ( !cell->minMaxKnown() )
cell->calcMinMaxWidth();
if ( cell->minWidth() > l.minWidth )
l.minWidth = cell->minWidth();
if ( cell->maxWidth() > l.maxWidth ) {
l.maxWidth = cell->maxWidth();
maxContributor = cell;
}
Length w = cell->style()->width();
w.l.value = kMin( 32767, kMax( 0, w.value() ) );
switch( w.type() ) {
case Fixed:
// ignore width=0
if ( w.value() > 0 && !l.width.isPercent() ) {
// ### we should use box'es paddings here I guess.
int wval = w.value() + table->cellPadding() * 2;
if ( l.width.isFixed() ) {
// Nav/IE weirdness
if ((wval > l.width.value()) ||
((l.width.value() == wval) && (maxContributor == cell))) {
l.width.l.value = wval;
fixedContributor = cell;
}
} else {
l.width = Length( wval, Fixed );
fixedContributor = cell;
}
}
break;
case Percent:
hasPercent = true;
if ( w.value() > 0 && (!l.width.isPercent() || w.value() > l.width.value() ) )
l.width = w;
break;
case Relative:
if ( w.isVariable() || (w.isRelative() && w.value() > l.width.value() ) )
l.width = w;
default:
break;
}
} else {
if ( !effCol || section->cellAt( i, effCol-1 ) != cell )
insertSpanCell( cell );
last = cell;
}
}
}
child = child->nextSibling();
}
// Nav/IE weirdness
if ( l.width.isFixed() ) {
if ( table->style()->htmlHacks()
&& (l.maxWidth > l.width.value()) && (fixedContributor != maxContributor)) {
l.width = Length();
fixedContributor = 0;
}
}
l.maxWidth = kMax(l.maxWidth, l.minWidth);
#ifdef DEBUG_LAYOUT
qDebug("col %d, final min=%d, max=%d, width=%d(%d)", effCol, l.minWidth, l.maxWidth, l.width.value, l.width.type );
#endif
// ### we need to add col elements aswell
}
/*
This method takes care of colspans.
effWidth is the same as width for cells without colspans. If we have colspans, they get modified.
*/
int AutoTableLayout::calcEffectiveWidth()
{
int tMaxWidth = 0;
unsigned int nEffCols = layoutStruct.size();
int spacing = table->cellSpacing();
#ifdef DEBUG_LAYOUT
qDebug("AutoTableLayout::calcEffectiveWidth for %d cols", nEffCols );
#endif
for ( unsigned int i = 0; i < nEffCols; i++ ) {
layoutStruct[i].effWidth = layoutStruct[i].width;
layoutStruct[i].effMinWidth = layoutStruct[i].minWidth;
layoutStruct[i].effMaxWidth = layoutStruct[i].maxWidth;
}
for ( unsigned int i = 0; i < spanCells.size(); i++ ) {
RenderTableCell *cell = spanCells[i];
if ( !cell || cell == (RenderTableCell *)-1 )
break;
int span = cell->colSpan();
Length w = cell->style()->width();
if ( !w.isRelative() && w.value() == 0 )
w = Length(); // make it Variable
int col = table->colToEffCol( cell->col() );
unsigned int lastCol = col;
int cMinWidth = cell->minWidth() + spacing;
int cMaxWidth = cell->maxWidth() + spacing;
int totalPercent = 0;
int minWidth = 0;
int maxWidth = 0;
bool allColsArePercent = true;
bool allColsAreFixed = true;
bool haveVariable = false;
int fixedWidth = 0;
#ifdef DEBUG_LAYOUT
int cSpan = span;
#endif
while ( lastCol < nEffCols && span > 0 ) {
switch( layoutStruct[lastCol].width.type() ) {
case Percent:
totalPercent += layoutStruct[lastCol].width.value();
allColsAreFixed = false;
break;
case Fixed:
if (layoutStruct[lastCol].width.value() > 0) {
fixedWidth += layoutStruct[lastCol].width.value();
allColsArePercent = false;
// IE resets effWidth to Variable here, but this breaks the konqueror about page and seems to be some bad
// legacy behaviour anyway. mozilla doesn't do this so I decided we don't neither.
break;
}
// fall through
case Variable:
haveVariable = true;
// fall through
default:
layoutStruct[lastCol].effWidth = Length();
allColsArePercent = false;
allColsAreFixed = false;
}
span -= table->spanOfEffCol( lastCol );
minWidth += layoutStruct[lastCol].effMinWidth;
maxWidth += layoutStruct[lastCol].effMaxWidth;
lastCol++;
cMinWidth -= spacing;
cMaxWidth -= spacing;
}
#ifdef DEBUG_LAYOUT
qDebug(" colspan cell %p at effCol %d, span %d, type %d, value %d cmin=%d min=%d fixedwidth=%d", cell, col, cSpan, w.type, w.value, cMinWidth, minWidth, fixedWidth );
#endif
// adjust table max width if needed
if ( w.isPercent() ) {
if ( totalPercent > w.value() || allColsArePercent ) {
// can't satify this condition, treat as variable
w = Length();
} else {
int spanMax = QMAX( maxWidth, cMaxWidth );
#ifdef DEBUG_LAYOUT
qDebug(" adjusting tMaxWidth (%d): spanMax=%d, value=%d, totalPercent=%d", tMaxWidth, spanMax, w.value(), totalPercent );
#endif
tMaxWidth = QMAX( tMaxWidth, spanMax * 100 / w.value() );
// all non percent columns in the span get percent vlaues to sum up correctly.
int percentMissing = w.value() - totalPercent;
int totalWidth = 0;
for ( unsigned int pos = col; pos < lastCol; pos++ ) {
if ( !(layoutStruct[pos].width.isPercent() ) )
totalWidth += layoutStruct[pos].effMaxWidth;
}
for ( unsigned int pos = col; pos < lastCol && totalWidth > 0; pos++ ) {
if ( !(layoutStruct[pos].width.isPercent() ) ) {
int percent = percentMissing * layoutStruct[pos].effMaxWidth / totalWidth;
#ifdef DEBUG_LAYOUT
qDebug(" col %d: setting percent value %d effMaxWidth=%d totalWidth=%d", pos, percent, layoutStruct[pos].effMaxWidth, totalWidth );
#endif
totalWidth -= layoutStruct[pos].effMaxWidth;
percentMissing -= percent;
if ( percent > 0 )
layoutStruct[pos].effWidth = Length( percent, Percent );
else
layoutStruct[pos].effWidth = Length();
}
}
}
}
// make sure minWidth and maxWidth of the spanning cell are honoured
if ( cMinWidth > minWidth ) {
if ( allColsAreFixed ) {
#ifdef DEBUG_LAYOUT
qDebug("extending minWidth of cols %d-%d to %dpx currentMin=%d accroding to fixed sum %d", col, lastCol-1, cMinWidth, minWidth, fixedWidth );
#endif
for ( unsigned int pos = col; fixedWidth > 0 && pos < lastCol; pos++ ) {
int w = QMAX( layoutStruct[pos].effMinWidth, cMinWidth * layoutStruct[pos].width.value() / fixedWidth );
#ifdef DEBUG_LAYOUT
qDebug(" col %d: min=%d, effMin=%d, new=%d", pos, layoutStruct[pos].effMinWidth, layoutStruct[pos].effMinWidth, w );
#endif
fixedWidth -= layoutStruct[pos].width.value();
cMinWidth -= w;
layoutStruct[pos].effMinWidth = w;
}
} else {
#ifdef DEBUG_LAYOUT
qDebug("extending minWidth of cols %d-%d to %dpx currentMin=%d", col, lastCol-1, cMinWidth, minWidth );
#endif
int maxw = maxWidth;
for ( unsigned int pos = col; minWidth > 0 && pos < lastCol; pos++ ) {
int w;
if ( layoutStruct[pos].width.isFixed() && haveVariable && fixedWidth <= cMinWidth ) {
w = QMAX( layoutStruct[pos].effMinWidth, layoutStruct[pos].width.value() );
fixedWidth -= layoutStruct[pos].width.value();
} else {
w = QMAX( layoutStruct[pos].effMinWidth, cMinWidth * layoutStruct[pos].effMaxWidth / maxw );
}
#ifdef DEBUG_LAYOUT
qDebug(" col %d: min=%d, effMin=%d, new=%d", pos, layoutStruct[pos].effMinWidth, layoutStruct[pos].effMinWidth, w );
#endif
maxw -= layoutStruct[pos].effMaxWidth;
cMinWidth -= w;
layoutStruct[pos].effMinWidth = w;
}
}
}
if ( !w.isPercent() ) {
if ( cMaxWidth > maxWidth ) {
#ifdef DEBUG_LAYOUT
qDebug("extending maxWidth of cols %d-%d to %dpx", col, lastCol-1, cMaxWidth );
#endif
for ( unsigned int pos = col; maxWidth > 0 && pos < lastCol; pos++ ) {
int w = QMAX( layoutStruct[pos].effMaxWidth, cMaxWidth * layoutStruct[pos].effMaxWidth / maxWidth );
#ifdef DEBUG_LAYOUT
qDebug(" col %d: max=%d, effMax=%d, new=%d", pos, layoutStruct[pos].effMaxWidth, layoutStruct[pos].effMaxWidth, w );
#endif
maxWidth -= layoutStruct[pos].effMaxWidth;
cMaxWidth -= w;
layoutStruct[pos].effMaxWidth = w;
}
}
} else {
for ( unsigned int pos = col; pos < lastCol; pos++ )
layoutStruct[pos].maxWidth = QMAX(layoutStruct[pos].maxWidth, layoutStruct[pos].minWidth );
}
}
effWidthDirty = false;
// qDebug("calcEffectiveWidth: tMaxWidth=%d", tMaxWidth );
return tMaxWidth;
}
bool AccessibilityTable::isTableExposableThroughAccessibility()
{
// 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 || !m_renderer->isTable())
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
AccessibilityRole ariaRole = ariaRoleAttribute();
if (ariaRole == TableRole)
return true;
if (ariaRole != UnknownRole)
return false;
RenderTable* table = static_cast<RenderTable*>(m_renderer);
// 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
Node* tableNode = table->element();
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;
// 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
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;
// 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->backgroundColor();
// 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;
for (int row = 0; row < numRows; ++row) {
for (int col = 0; col < numCols; ++col) {
RenderTableCell* cell = firstBody->cellAt(row, col).cell;
if (!cell)
continue;
Node* cellNode = cell->element();
if (!cellNode)
continue;
if (cell->width() < 1 || cell->height() < 1)
continue;
validCellCount++;
HTMLTableCellElement* cellElement = static_cast<HTMLTableCellElement*>(cellNode);
// in this case, the developer explicitly assigned a "data" table attribute
if (!cellElement->headers().isEmpty() || !cellElement->abbr().isEmpty() ||
!cellElement->axis().isEmpty() || !cellElement->scope().isEmpty())
return true;
RenderStyle* renderStyle = cell->style();
if (!renderStyle)
continue;
// a cell needs to have matching bordered sides, before it can be considered a bordered cell.
if ((cell->borderTop() > 0 && cell->borderBottom() > 0) ||
(cell->borderLeft() > 0 && cell->borderRight() > 0))
borderedCellCount++;
// 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->backgroundColor();
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;
}
}
// 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)
return true;
// half had different background colors, it's a data table
if (backgroundDifferenceCellCount >= neededCellCount)
return true;
return false;
}
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;
// 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;
// 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
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;
// 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;
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)
continue;
if (cell->width() < 1 || cell->height() < 1)
continue;
validCellCount++;
HTMLTableCellElement* cellElement = static_cast<HTMLTableCellElement*>(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->headers().isEmpty() || !cellElement->abbr().isEmpty()
|| !cellElement->axis().isEmpty() || !cellElement->scope().isEmpty())
return true;
RenderStyle* renderStyle = cell->style();
if (!renderStyle)
continue;
// a cell needs to have matching bordered sides, before it can be considered a bordered cell.
if ((cell->borderTop() > 0 && cell->borderBottom() > 0)
|| (cell->borderLeft() > 0 && cell->borderRight() > 0))
borderedCellCount++;
// 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)
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;
}
CollapsedBorderValue RenderTableCell::collapsedBottomBorder() const
{
// For border top, we need to check, in order of precedence:
// (1) Our bottom border.
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderBottom(), BCELL);
RenderTableCell* nextCell = table()->cellBelow(this);
if (nextCell) {
// (2) A following cell's top border.
result = compareBorders(result, CollapsedBorderValue(&nextCell->style()->borderTop(), BCELL));
if (!result.exists())
return result;
}
// (3) Our row's bottom border. (FIXME: Deal with rowspan!)
result = compareBorders(result, CollapsedBorderValue(&parent()->style()->borderBottom(), BROW));
if (!result.exists())
return result;
// (4) The next row's top border.
if (nextCell) {
result = compareBorders(result, CollapsedBorderValue(&nextCell->parent()->style()->borderTop(), BROW));
if (!result.exists())
return result;
}
// Now check row groups.
RenderTableSection* currSection = section();
if (row() + rowSpan() >= currSection->numRows()) {
// (5) Our row group's bottom border.
result = compareBorders(result, CollapsedBorderValue(&currSection->style()->borderBottom(), BROWGROUP));
if (!result.exists())
return result;
// (6) Following row group's top border.
currSection = table()->sectionBelow(currSection);
if (currSection) {
result = compareBorders(result, CollapsedBorderValue(&currSection->style()->borderTop(), BROWGROUP));
if (!result.exists())
return result;
}
}
if (!currSection) {
// (8) Our column and column group's bottom borders.
RenderTableCol* colElt = table()->colElement(col());
if (colElt) {
result = compareBorders(result, CollapsedBorderValue(&colElt->style()->borderBottom(), BCOL));
if (!result.exists()) return result;
if (colElt->parent()->isTableCol()) {
result = compareBorders(result, CollapsedBorderValue(&colElt->parent()->style()->borderBottom(), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (9) The table's bottom border.
result = compareBorders(result, CollapsedBorderValue(&table()->style()->borderBottom(), BTABLE));
if (!result.exists())
return result;
}
return result;
}
CollapsedBorderValue RenderTableCell::collapsedTopBorder() const
{
// For border top, we need to check, in order of precedence:
// (1) Our top border.
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderTop(), BCELL);
RenderTableCell* prevCell = table()->cellAbove(this);
if (prevCell) {
// (2) A previous cell's bottom border.
result = compareBorders(CollapsedBorderValue(&prevCell->style()->borderBottom(), BCELL), result);
if (!result.exists())
return result;
}
// (3) Our row's top border.
result = compareBorders(result, CollapsedBorderValue(&parent()->style()->borderTop(), BROW));
if (!result.exists())
return result;
// (4) The previous row's bottom border.
if (prevCell) {
RenderObject* prevRow = 0;
if (prevCell->section() == section())
prevRow = parent()->previousSibling();
else
prevRow = prevCell->section()->lastChild();
if (prevRow) {
result = compareBorders(CollapsedBorderValue(&prevRow->style()->borderBottom(), BROW), result);
if (!result.exists())
return result;
}
}
// Now check row groups.
RenderTableSection* currSection = section();
if (!row()) {
// (5) Our row group's top border.
result = compareBorders(result, CollapsedBorderValue(&currSection->style()->borderTop(), BROWGROUP));
if (!result.exists())
return result;
// (6) Previous row group's bottom border.
currSection = table()->sectionAbove(currSection);
if (currSection) {
result = compareBorders(CollapsedBorderValue(&currSection->style()->borderBottom(), BROWGROUP), result);
if (!result.exists())
return result;
}
}
if (!currSection) {
// (8) Our column and column group's top borders.
RenderTableCol* colElt = table()->colElement(col());
if (colElt) {
result = compareBorders(result, CollapsedBorderValue(&colElt->style()->borderTop(), BCOL));
if (!result.exists())
return result;
if (colElt->parent()->isTableCol()) {
result = compareBorders(result, CollapsedBorderValue(&colElt->parent()->style()->borderTop(), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (9) The table's top border.
result = compareBorders(result, CollapsedBorderValue(&table()->style()->borderTop(), BTABLE));
if (!result.exists())
return result;
}
return result;
}
CollapsedBorderValue RenderTableCell::collapsedRightBorder(bool rtl) const
{
RenderTable* tableElt = table();
bool rightmostColumn;
if (rtl)
rightmostColumn = col() == 0;
else {
int effCol = tableElt->colToEffCol(col() + colSpan() - 1);
rightmostColumn = effCol == tableElt->numEffCols() - 1;
}
// For border right, we need to check, in order of precedence:
// (1) Our right border.
CollapsedBorderValue result = CollapsedBorderValue(&style()->borderRight(), BCELL);
// (2) The left border of the cell to the right.
if (!rightmostColumn) {
RenderTableCell* nextCell = rtl ? tableElt->cellBefore(this) : tableElt->cellAfter(this);
if (nextCell && nextCell->style()) {
result = rtl ? compareBorders(CollapsedBorderValue(&nextCell->style()->borderLeft(), BCELL), result) : compareBorders(result, CollapsedBorderValue(&nextCell->style()->borderLeft(), BCELL));
if (!result.exists())
return result;
}
} else {
// (3) Our row's right border.
result = compareBorders(result, CollapsedBorderValue(&parent()->style()->borderRight(), BROW));
if (!result.exists())
return result;
// (4) Our row group's right border.
result = compareBorders(result, CollapsedBorderValue(§ion()->style()->borderRight(), BROWGROUP));
if (!result.exists())
return result;
}
// (5) Our column and column group's right borders.
bool startColEdge;
bool endColEdge;
RenderTableCol* colElt = tableElt->colElement(col() + (rtl ? 0 : colSpan() - 1), &startColEdge, &endColEdge);
if (colElt && (!rtl ? endColEdge : startColEdge)) {
result = compareBorders(result, CollapsedBorderValue(&colElt->style()->borderRight(), BCOL));
if (!result.exists())
return result;
if (colElt->parent()->isTableCol() && (!rtl ? !colElt->nextSibling() : !colElt->previousSibling())) {
result = compareBorders(result, CollapsedBorderValue(&colElt->parent()->style()->borderRight(), BCOLGROUP));
if (!result.exists())
return result;
}
}
// (6) The left border of the column to the right.
if (!rightmostColumn) {
colElt = tableElt->colElement(col() + (rtl ? -1 : colSpan()), &startColEdge, &endColEdge);
if (colElt && (!rtl ? startColEdge : endColEdge)) {
result = rtl ? compareBorders(CollapsedBorderValue(&colElt->style()->borderLeft(), BCOL), result) : compareBorders(result, CollapsedBorderValue(&colElt->style()->borderLeft(), BCOL));
if (!result.exists())
return result;
}
} else {
// (7) The table's right border.
result = compareBorders(result, CollapsedBorderValue(&tableElt->style()->borderRight(), BTABLE));
if (!result.exists())
return result;
}
return result;
}