/* * Copyright (C) 1997 Martin Jones (mjones@kde.org) * (C) 1997 Torben Weis (weis@kde.org) * (C) 1998 Waldo Bastian (bastian@kde.org) * (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * Copyright (C) 2003, 2004, 2005, 2006, 2007 Apple Inc. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "config.h" #include "RenderTableCell.h" #include "FloatQuad.h" #include "GraphicsContext.h" #include "HTMLNames.h" #include "HTMLTableCellElement.h" #include "RenderTableCol.h" #include "RenderView.h" #ifdef ANDROID_LAYOUT #include "Document.h" #include "Settings.h" #endif using namespace std; namespace WebCore { using namespace HTMLNames; RenderTableCell::RenderTableCell(Node* node) : RenderBlock(node) , m_row(-1) , m_column(-1) , m_rowSpan(1) , m_columnSpan(1) , m_intrinsicPaddingTop(0) , m_intrinsicPaddingBottom(0) , m_percentageHeight(0) { updateFromElement(); } void RenderTableCell::destroy() { RenderTableSection* recalcSection = parent() ? section() : 0; RenderBlock::destroy(); if (recalcSection) recalcSection->setNeedsCellRecalc(); } void RenderTableCell::updateFromElement() { Node* node = element(); if (node && (node->hasTagName(tdTag) || node->hasTagName(thTag))) { HTMLTableCellElement* tc = static_cast(node); int oldRSpan = m_rowSpan; int oldCSpan = m_columnSpan; m_columnSpan = tc->colSpan(); m_rowSpan = tc->rowSpan(); if ((oldRSpan != m_rowSpan || oldCSpan != m_columnSpan) && style() && parent()) { setNeedsLayoutAndPrefWidthsRecalc(); if (section()) section()->setNeedsCellRecalc(); } } } Length RenderTableCell::styleOrColWidth() const { Length w = style()->width(); if (colSpan() > 1 || !w.isAuto()) return w; RenderTableCol* tableCol = table()->colElement(col()); if (tableCol) { w = tableCol->style()->width(); // Column widths specified on apply to the border box of the cell. // Percentages don't need to be handled since they're always treated this way (even when specified on the cells). // See Bugzilla bug 8126 for details. if (w.isFixed() && w.value() > 0) w = Length(max(0, w.value() - borderLeft() - borderRight() - paddingLeft() - paddingRight()), Fixed); } return w; } void RenderTableCell::calcPrefWidths() { // The child cells rely on the grids up in the sections to do their calcPrefWidths work. Normally the sections are set up early, as table // cells are added, but relayout can cause the cells to be freed, leaving stale pointers in the sections' // grids. We must refresh those grids before the child cells try to use them. table()->recalcSectionsIfNeeded(); RenderBlock::calcPrefWidths(); if (element() && style()->autoWrap()) { // See if nowrap was set. Length w = styleOrColWidth(); String nowrap = static_cast(element())->getAttribute(nowrapAttr); if (!nowrap.isNull() && w.isFixed()) // Nowrap is set, but we didn't actually use it because of the // fixed width set on the cell. Even so, it is a WinIE/Moz trait // to make the minwidth of the cell into the fixed width. They do this // even in strict mode, so do not make this a quirk. Affected the top // of hiptop.com. m_minPrefWidth = max(w.value(), m_minPrefWidth); } } void RenderTableCell::calcWidth() { #ifdef ANDROID_LAYOUT if (view()->frameView()) { const Settings* settings = document()->settings(); ASSERT(settings); if (settings->layoutAlgorithm() == Settings::kLayoutFitColumnToScreen) { m_visibleWidth = view()->frameView()->screenWidth(); } } #endif } void RenderTableCell::updateWidth(int w) { if (w != width()) { setWidth(w); m_cellWidthChanged = true; } } void RenderTableCell::layout() { layoutBlock(m_cellWidthChanged); m_cellWidthChanged = false; } int RenderTableCell::paddingTop(bool includeIntrinsicPadding) const { return RenderBlock::paddingTop() + (includeIntrinsicPadding ? intrinsicPaddingTop() : 0); } int RenderTableCell::paddingBottom(bool includeIntrinsicPadding) const { return RenderBlock::paddingBottom() + (includeIntrinsicPadding ? intrinsicPaddingBottom() : 0); } void RenderTableCell::setOverrideSize(int size) { clearIntrinsicPadding(); RenderBlock::setOverrideSize(size); } IntRect RenderTableCell::clippedOverflowRectForRepaint(RenderBox* repaintContainer) { // If the table grid is dirty, we cannot get reliable information about adjoining cells, // so we ignore outside borders. This should not be a problem because it means that // the table is going to recalculate the grid, relayout and repaint its current rect, which // includes any outside borders of this cell. if (!table()->collapseBorders() || table()->needsSectionRecalc()) return RenderBlock::clippedOverflowRectForRepaint(repaintContainer); bool rtl = table()->style()->direction() == RTL; int outlineSize = style()->outlineSize(); int left = max(borderHalfLeft(true), outlineSize); int right = max(borderHalfRight(true), outlineSize); int top = max(borderHalfTop(true), outlineSize); int bottom = max(borderHalfBottom(true), outlineSize); if (left && !rtl || right && rtl) { if (RenderTableCell* before = table()->cellBefore(this)) { top = max(top, before->borderHalfTop(true)); bottom = max(bottom, before->borderHalfBottom(true)); } } if (left && rtl || right && !rtl) { if (RenderTableCell* after = table()->cellAfter(this)) { top = max(top, after->borderHalfTop(true)); bottom = max(bottom, after->borderHalfBottom(true)); } } if (top) { if (RenderTableCell* above = table()->cellAbove(this)) { left = max(left, above->borderHalfLeft(true)); right = max(right, above->borderHalfRight(true)); } } if (bottom) { if (RenderTableCell* below = table()->cellBelow(this)) { left = max(left, below->borderHalfLeft(true)); right = max(right, below->borderHalfRight(true)); } } left = max(left, -overflowLeft(false)); top = max(top, -overflowTop(false)); IntRect r(-left, - top, left + max(width() + right, overflowWidth(false)), top + max(height() + bottom, overflowHeight(false))); if (RenderView* v = view()) { // FIXME: layoutDelta needs to be applied in parts before/after transforms and // repaint containers. https://bugs.webkit.org/show_bug.cgi?id=23308 r.move(v->layoutDelta()); } computeRectForRepaint(r, repaintContainer); return r; } void RenderTableCell::computeRectForRepaint(IntRect& r, RenderBox* repaintContainer, bool fixed) { if (repaintContainer == this) return; r.setY(r.y()); RenderView* v = view(); if ((!v || !v->layoutStateEnabled()) && parent()) r.move(-parentBox()->x(), -parentBox()->y()); // Rows are in the same coordinate space, so don't add their offset in. RenderBlock::computeRectForRepaint(r, repaintContainer, fixed); } FloatPoint RenderTableCell::localToAbsolute(FloatPoint localPoint, bool fixed, bool useTransforms) const { RenderView* v = view(); if ((!v || !v->layoutStateEnabled()) && parent()) { // Rows are in the same coordinate space, so don't add their offset in. localPoint.move(-parentBox()->x(), -parentBox()->y()); } return RenderBlock::localToAbsolute(localPoint, fixed, useTransforms); } FloatPoint RenderTableCell::absoluteToLocal(FloatPoint containerPoint, bool fixed, bool useTransforms) const { FloatPoint localPoint = RenderBlock::absoluteToLocal(containerPoint, fixed, useTransforms); if (parent()) { // Rows are in the same coordinate space, so add their offset back in. localPoint.move(parentBox()->x(), parentBox()->y()); } return localPoint; } FloatQuad RenderTableCell::localToContainerQuad(const FloatQuad& localQuad, RenderBox* repaintContainer, bool fixed) const { if (repaintContainer == this) return localQuad; FloatQuad quad = localQuad; if (parent()) { // Rows are in the same coordinate space, so don't add their offset in. quad.move(-parentBox()->x(), -parentBox()->y()); } return RenderBlock::localToContainerQuad(quad, repaintContainer, fixed); } int RenderTableCell::baselinePosition(bool /*firstLine*/, bool /*isRootLineBox*/) const { // : The baseline of a cell is the baseline of // the first in-flow line box in the cell, or the first in-flow table-row in the cell, whichever comes first. If there // is no such line box or table-row, the baseline is the bottom of content edge of the cell box. int firstLineBaseline = getBaselineOfFirstLineBox(); if (firstLineBaseline != -1) return firstLineBaseline; return paddingTop() + borderTop() + contentHeight(); } void RenderTableCell::styleWillChange(RenderStyle::Diff diff, const RenderStyle* newStyle) { if (parent() && section() && style() && style()->height() != newStyle->height()) section()->setNeedsCellRecalc(); ASSERT(newStyle->display() == TABLE_CELL); RenderBlock::styleWillChange(diff, newStyle); } void RenderTableCell::styleDidChange(RenderStyle::Diff diff, const RenderStyle* oldStyle) { RenderBlock::styleDidChange(diff, oldStyle); setHasBoxDecorations(true); } // The following rules apply for resolving conflicts and figuring out which border // to use. // (1) Borders with the 'border-style' of 'hidden' take precedence over all other conflicting // borders. Any border with this value suppresses all borders at this location. // (2) Borders with a style of 'none' have the lowest priority. Only if the border properties of all // the elements meeting at this edge are 'none' will the border be omitted (but note that 'none' is // the default value for the border style.) // (3) If none of the styles are 'hidden' and at least one of them is not 'none', then narrow borders // are discarded in favor of wider ones. If several have the same 'border-width' then styles are preferred // in this order: 'double', 'solid', 'dashed', 'dotted', 'ridge', 'outset', 'groove', and the lowest: 'inset'. // (4) If border styles differ only in color, then a style set on a cell wins over one on a row, // which wins over a row group, column, column group and, lastly, table. It is undefined which color // is used when two elements of the same type disagree. static CollapsedBorderValue compareBorders(const CollapsedBorderValue& border1, const CollapsedBorderValue& border2) { // Sanity check the values passed in. If either is null, return the other. if (!border2.exists()) return border1; if (!border1.exists()) return border2; // Rule #1 above. if (border1.style() == BHIDDEN || border2.style() == BHIDDEN) return CollapsedBorderValue(); // No border should exist at this location. // Rule #2 above. A style of 'none' has lowest priority and always loses to any other border. if (border2.style() == BNONE) return border1; if (border1.style() == BNONE) return border2; // The first part of rule #3 above. Wider borders win. if (border1.width() != border2.width()) return border1.width() > border2.width() ? border1 : border2; // The borders have equal width. Sort by border style. if (border1.style() != border2.style()) return border1.style() > border2.style() ? border1 : border2; // The border have the same width and style. Rely on precedence (cell over row over row group, etc.) return border1.precedence >= border2.precedence ? border1 : border2; } CollapsedBorderValue RenderTableCell::collapsedLeftBorder(bool rtl) const { RenderTable* tableElt = table(); bool leftmostColumn; if (!rtl) leftmostColumn = col() == 0; else { int effCol = tableElt->colToEffCol(col() + colSpan() - 1); leftmostColumn = effCol == tableElt->numEffCols() - 1; } // For border left, we need to check, in order of precedence: // (1) Our left border. CollapsedBorderValue result(&style()->borderLeft(), BCELL); // (2) The right border of the cell to the left. RenderTableCell* prevCell = rtl ? tableElt->cellAfter(this) : tableElt->cellBefore(this); if (prevCell) { result = rtl ? compareBorders(result, CollapsedBorderValue(&prevCell->style()->borderRight(), BCELL)) : compareBorders(CollapsedBorderValue(&prevCell->style()->borderRight(), BCELL), result); if (!result.exists()) return result; } else if (leftmostColumn) { // (3) Our row's left border. result = compareBorders(result, CollapsedBorderValue(&parent()->style()->borderLeft(), BROW)); if (!result.exists()) return result; // (4) Our row group's left border. result = compareBorders(result, CollapsedBorderValue(§ion()->style()->borderLeft(), BROWGROUP)); if (!result.exists()) return result; } // (5) Our column and column group's left borders. bool startColEdge; bool endColEdge; RenderTableCol* colElt = tableElt->colElement(col() + (rtl ? colSpan() - 1 : 0), &startColEdge, &endColEdge); if (colElt && (!rtl ? startColEdge : endColEdge)) { result = compareBorders(result, CollapsedBorderValue(&colElt->style()->borderLeft(), BCOL)); if (!result.exists()) return result; if (colElt->parent()->isTableCol() && (!rtl ? !colElt->previousSibling() : !colElt->nextSibling())) { result = compareBorders(result, CollapsedBorderValue(&colElt->parent()->style()->borderLeft(), BCOLGROUP)); if (!result.exists()) return result; } } // (6) The right border of the column to the left. if (!leftmostColumn) { colElt = tableElt->colElement(col() + (rtl ? colSpan() : -1), &startColEdge, &endColEdge); if (colElt && (!rtl ? endColEdge : startColEdge)) { result = rtl ? compareBorders(result, CollapsedBorderValue(&colElt->style()->borderRight(), BCOL)) : compareBorders(CollapsedBorderValue(&colElt->style()->borderRight(), BCOL), result); if (!result.exists()) return result; } } else { // (7) The table's left border. result = compareBorders(result, CollapsedBorderValue(&tableElt->style()->borderLeft(), 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; } 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::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() >= static_cast(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; } int RenderTableCell::borderLeft() const { return table()->collapseBorders() ? borderHalfLeft(false) : RenderBlock::borderLeft(); } int RenderTableCell::borderRight() const { return table()->collapseBorders() ? borderHalfRight(false) : RenderBlock::borderRight(); } int RenderTableCell::borderTop() const { return table()->collapseBorders() ? borderHalfTop(false) : RenderBlock::borderTop(); } int RenderTableCell::borderBottom() const { return table()->collapseBorders() ? borderHalfBottom(false) : RenderBlock::borderBottom(); } int RenderTableCell::borderHalfLeft(bool outer) const { CollapsedBorderValue border = collapsedLeftBorder(table()->style()->direction() == RTL); if (border.exists()) return (border.width() + (outer ? 0 : 1)) / 2; // Give the extra pixel to top and left. return 0; } int RenderTableCell::borderHalfRight(bool outer) const { CollapsedBorderValue border = collapsedRightBorder(table()->style()->direction() == RTL); if (border.exists()) return (border.width() + (outer ? 1 : 0)) / 2; return 0; } int RenderTableCell::borderHalfTop(bool outer) const { CollapsedBorderValue border = collapsedTopBorder(); if (border.exists()) return (border.width() + (outer ? 0 : 1)) / 2; // Give the extra pixel to top and left. return 0; } int RenderTableCell::borderHalfBottom(bool outer) const { CollapsedBorderValue border = collapsedBottomBorder(); if (border.exists()) return (border.width() + (outer ? 1 : 0)) / 2; return 0; } void RenderTableCell::paint(PaintInfo& paintInfo, int tx, int ty) { tx += x(); ty += y(); // check if we need to do anything at all... int os = 2 * maximalOutlineSize(paintInfo.phase); if (paintInfo.phase == PaintPhaseCollapsedTableBorders && style()->visibility() == VISIBLE) { if (ty - table()->outerBorderTop() >= paintInfo.rect.bottom() + os || ty + height() + table()->outerBorderBottom() <= paintInfo.rect.y() - os) return; paintCollapsedBorder(paintInfo.context, tx, ty, width(), height()); } else { if (ty + overflowTop(false) >= paintInfo.rect.bottom() + os || ty + overflowHeight(false) <= paintInfo.rect.y() - os) return; RenderBlock::paintObject(paintInfo, tx, ty); } } static EBorderStyle collapsedBorderStyle(EBorderStyle style) { if (style == OUTSET) return GROOVE; if (style == INSET) return RIDGE; return style; } struct CollapsedBorder { CollapsedBorderValue borderValue; RenderObject::BorderSide side; bool shouldPaint; int x1; int y1; int x2; int y2; EBorderStyle style; }; class CollapsedBorders { public: CollapsedBorders() : m_count(0) { } void addBorder(const CollapsedBorderValue& borderValue, RenderObject::BorderSide borderSide, bool shouldPaint, int x1, int y1, int x2, int y2, EBorderStyle borderStyle) { if (borderValue.exists() && shouldPaint) { m_borders[m_count].borderValue = borderValue; m_borders[m_count].side = borderSide; m_borders[m_count].shouldPaint = shouldPaint; m_borders[m_count].x1 = x1; m_borders[m_count].x2 = x2; m_borders[m_count].y1 = y1; m_borders[m_count].y2 = y2; m_borders[m_count].style = borderStyle; m_count++; } } CollapsedBorder* nextBorder() { for (int i = 0; i < m_count; i++) { if (m_borders[i].borderValue.exists() && m_borders[i].shouldPaint) { m_borders[i].shouldPaint = false; return &m_borders[i]; } } return 0; } CollapsedBorder m_borders[4]; int m_count; }; static void addBorderStyle(RenderTableCell::CollapsedBorderStyles& borderStyles, CollapsedBorderValue borderValue) { if (!borderValue.exists()) return; size_t count = borderStyles.size(); for (size_t i = 0; i < count; ++i) if (borderStyles[i] == borderValue) return; borderStyles.append(borderValue); } void RenderTableCell::collectBorderStyles(CollapsedBorderStyles& borderStyles) const { bool rtl = table()->style()->direction() == RTL; addBorderStyle(borderStyles, collapsedLeftBorder(rtl)); addBorderStyle(borderStyles, collapsedRightBorder(rtl)); addBorderStyle(borderStyles, collapsedTopBorder()); addBorderStyle(borderStyles, collapsedBottomBorder()); } static int compareBorderStylesForQSort(const void* pa, const void* pb) { const CollapsedBorderValue* a = static_cast(pa); const CollapsedBorderValue* b = static_cast(pb); if (*a == *b) return 0; CollapsedBorderValue borderWithHigherPrecedence = compareBorders(*a, *b); #ifdef ANDROID_FIX if (*a == borderWithHigherPrecedence) { // klibc uses a combsort for quicksort and requires that two values always give the same answer // regardless of comparison order. Unfortunately, compareBorders does not honor that requirement. // Call compareBorders again with reversed parameters. If it returns the first value again then // we can assume the values are equal. http://bugs.webkit.org/show_bug.cgi?id=13147 CollapsedBorderValue qSortHack = compareBorders(*b, *a); if (*b == qSortHack) return 0; return 1; } #else if (*a == borderWithHigherPrecedence) return 1; #endif return -1; } void RenderTableCell::sortBorderStyles(CollapsedBorderStyles& borderStyles) { qsort(borderStyles.data(), borderStyles.size(), sizeof(CollapsedBorderValue), compareBorderStylesForQSort); } void RenderTableCell::paintCollapsedBorder(GraphicsContext* graphicsContext, int tx, int ty, int w, int h) { if (!table()->currentBorderStyle()) return; bool rtl = table()->style()->direction() == RTL; CollapsedBorderValue leftVal = collapsedLeftBorder(rtl); CollapsedBorderValue rightVal = collapsedRightBorder(rtl); CollapsedBorderValue topVal = collapsedTopBorder(); CollapsedBorderValue bottomVal = collapsedBottomBorder(); // Adjust our x/y/width/height so that we paint the collapsed borders at the correct location. int topWidth = topVal.width(); int bottomWidth = bottomVal.width(); int leftWidth = leftVal.width(); int rightWidth = rightVal.width(); tx -= leftWidth / 2; ty -= topWidth / 2; w += leftWidth / 2 + (rightWidth + 1) / 2; h += topWidth / 2 + (bottomWidth + 1) / 2; EBorderStyle topStyle = collapsedBorderStyle(topVal.style()); EBorderStyle bottomStyle = collapsedBorderStyle(bottomVal.style()); EBorderStyle leftStyle = collapsedBorderStyle(leftVal.style()); EBorderStyle rightStyle = collapsedBorderStyle(rightVal.style()); bool renderTop = topStyle > BHIDDEN && !topVal.isTransparent(); bool renderBottom = bottomStyle > BHIDDEN && !bottomVal.isTransparent(); bool renderLeft = leftStyle > BHIDDEN && !leftVal.isTransparent(); bool renderRight = rightStyle > BHIDDEN && !rightVal.isTransparent(); // We never paint diagonals at the joins. We simply let the border with the highest // precedence paint on top of borders with lower precedence. CollapsedBorders borders; borders.addBorder(topVal, BSTop, renderTop, tx, ty, tx + w, ty + topWidth, topStyle); borders.addBorder(bottomVal, BSBottom, renderBottom, tx, ty + h - bottomWidth, tx + w, ty + h, bottomStyle); borders.addBorder(leftVal, BSLeft, renderLeft, tx, ty, tx + leftWidth, ty + h, leftStyle); borders.addBorder(rightVal, BSRight, renderRight, tx + w - rightWidth, ty, tx + w, ty + h, rightStyle); for (CollapsedBorder* border = borders.nextBorder(); border; border = borders.nextBorder()) { if (border->borderValue == *table()->currentBorderStyle()) drawBorder(graphicsContext, border->x1, border->y1, border->x2, border->y2, border->side, border->borderValue.color(), style()->color(), border->style, 0, 0); } } void RenderTableCell::paintBackgroundsBehindCell(PaintInfo& paintInfo, int tx, int ty, RenderObject* backgroundObject) { if (!backgroundObject) return; if (style()->visibility() != VISIBLE) return; RenderTable* tableElt = table(); if (!tableElt->collapseBorders() && style()->emptyCells() == HIDE && !firstChild()) return; if (backgroundObject != this) { tx += x(); ty += y(); } int w = width(); int h = height(); int my = max(ty, paintInfo.rect.y()); int end = min(paintInfo.rect.bottom(), ty + h); int mh = end - my; Color c = backgroundObject->style()->backgroundColor(); const FillLayer* bgLayer = backgroundObject->style()->backgroundLayers(); if (bgLayer->hasImage() || c.isValid()) { // We have to clip here because the background would paint // on top of the borders otherwise. This only matters for cells and rows. bool shouldClip = backgroundObject->hasLayer() && (backgroundObject == this || backgroundObject == parent()) && tableElt->collapseBorders(); if (shouldClip) { IntRect clipRect(tx + borderLeft(), ty + borderTop(), w - borderLeft() - borderRight(), h - borderTop() - borderBottom()); paintInfo.context->save(); paintInfo.context->clip(clipRect); } paintFillLayers(paintInfo, c, bgLayer, my, mh, tx, ty, w, h); if (shouldClip) paintInfo.context->restore(); } } void RenderTableCell::paintBoxDecorations(PaintInfo& paintInfo, int tx, int ty) { RenderTable* tableElt = table(); if (!tableElt->collapseBorders() && style()->emptyCells() == HIDE && !firstChild()) return; int w = width(); int h = height(); if (style()->boxShadow()) paintBoxShadow(paintInfo.context, tx, ty, w, h, style()); // Paint our cell background. paintBackgroundsBehindCell(paintInfo, tx, ty, this); if (!style()->hasBorder() || tableElt->collapseBorders()) return; paintBorder(paintInfo.context, tx, ty, w, h, style()); } void RenderTableCell::paintMask(PaintInfo& paintInfo, int tx, int ty) { if (style()->visibility() != VISIBLE || paintInfo.phase != PaintPhaseMask) return; RenderTable* tableElt = table(); if (!tableElt->collapseBorders() && style()->emptyCells() == HIDE && !firstChild()) return; int w = width(); int h = height(); int my = max(ty, paintInfo.rect.y()); int end = min(paintInfo.rect.bottom(), ty + h); int mh = end - my; paintMaskImages(paintInfo, my, mh, tx, ty, w, h); } } // namespace WebCore