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/**
* This file is part of the html renderer for KDE.
*
* Copyright (C) 1999-2003 Lars Knoll ([email protected])
* (C) 1999-2003 Antti Koivisto ([email protected])
* (C) 2002-2003 Dirk Mueller ([email protected])
* (C) 2003-2006 Apple Computer, Inc.
*
* 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 <kdebug.h>
#include <assert.h>
#include <tqpainter.h>
#include <tdeglobal.h>
#include "rendering/render_flow.h"
#include "rendering/render_text.h"
#include "rendering/render_table.h"
#include "rendering/render_canvas.h"
#include "rendering/render_inline.h"
#include "rendering/render_block.h"
#include "rendering/render_arena.h"
#include "rendering/render_line.h"
#include "xml/dom_nodeimpl.h"
#include "xml/dom_docimpl.h"
#include "misc/htmltags.h"
#include "html/html_formimpl.h"
#include "tdehtmlview.h"
using namespace DOM;
using namespace tdehtml;
RenderFlow* RenderFlow::createFlow(DOM::NodeImpl* node, RenderStyle* style, RenderArena* arena)
{
RenderFlow* result;
if (style->display() == INLINE)
result = new (arena) RenderInline(node);
else
result = new (arena) RenderBlock(node);
result->setStyle(style);
return result;
}
RenderFlow* RenderFlow::continuationBefore(RenderObject* beforeChild)
{
if (beforeChild && beforeChild->parent() == this)
return this;
RenderFlow* curr = continuation();
RenderFlow* nextToLast = this;
RenderFlow* last = this;
while (curr) {
if (beforeChild && beforeChild->parent() == curr) {
if (curr->firstChild() == beforeChild)
return last;
return curr;
}
nextToLast = last;
last = curr;
curr = curr->continuation();
}
if (!beforeChild && !last->firstChild())
return nextToLast;
return last;
}
void RenderFlow::addChildWithContinuation(RenderObject* newChild, RenderObject* beforeChild)
{
RenderFlow* flow = continuationBefore(beforeChild);
while(beforeChild && beforeChild->parent() != flow && !beforeChild->parent()->isAnonymousBlock()) {
// skip implicit containers around beforeChild
beforeChild = beforeChild->parent();
}
RenderFlow* beforeChildParent = beforeChild ? static_cast<RenderFlow*>(beforeChild->parent()) :
(flow->continuation() ? flow->continuation() : flow);
if (newChild->isFloatingOrPositioned())
return beforeChildParent->addChildToFlow(newChild, beforeChild);
// A continuation always consists of two potential candidates: an inline or an anonymous
// block box holding block children.
bool childInline = newChild->isInline();
bool bcpInline = beforeChildParent->isInline();
bool flowInline = flow->isInline();
if (flow == beforeChildParent)
return flow->addChildToFlow(newChild, beforeChild);
else {
// The goal here is to match up if we can, so that we can coalesce and create the
// minimal # of continuations needed for the inline.
if (childInline == bcpInline)
return beforeChildParent->addChildToFlow(newChild, beforeChild);
else if (flowInline == childInline)
return flow->addChildToFlow(newChild, 0); // Just treat like an append.
else
return beforeChildParent->addChildToFlow(newChild, beforeChild);
}
}
void RenderFlow::addChild(RenderObject *newChild, RenderObject *beforeChild)
{
#ifdef DEBUG_LAYOUT
kdDebug( 6040 ) << renderName() << "(RenderFlow)::addChild( " << newChild->renderName() <<
", " << (beforeChild ? beforeChild->renderName() : "0") << " )" << endl;
kdDebug( 6040 ) << "current height = " << m_height << endl;
#endif
if (continuation())
return addChildWithContinuation(newChild, beforeChild);
return addChildToFlow(newChild, beforeChild);
}
void RenderFlow::deleteInlineBoxes(RenderArena* arena)
{
RenderBox::deleteInlineBoxes(arena); //In case we upcalled
//during construction
if (m_firstLineBox) {
if (!arena)
arena = renderArena();
InlineRunBox *curr=m_firstLineBox, *next=0;
while (curr) {
next = curr->nextLineBox();
curr->detach(arena);
curr = next;
}
m_firstLineBox = 0;
m_lastLineBox = 0;
}
}
void RenderFlow::deleteLastLineBox(RenderArena* arena)
{
if (m_lastLineBox) {
if (!arena)
arena = renderArena();
InlineRunBox *curr=m_lastLineBox, *prev = m_lastLineBox;
if (m_firstLineBox == m_lastLineBox)
m_firstLineBox = m_lastLineBox = 0;
else {
prev = curr->prevLineBox();
while (!prev->isInlineFlowBox()) {
prev = prev->prevLineBox();
prev->detach(arena);
}
m_lastLineBox = static_cast<InlineFlowBox*>(prev);
prev->setNextLineBox(0);
}
if (curr->parent()) {
curr->parent()->removeFromLine(curr);
}
curr->detach(arena);
}
}
InlineBox* RenderFlow::createInlineBox(bool makePlaceHolderBox, bool isRootLineBox)
{
if ( !isRootLineBox &&
(isReplaced() || makePlaceHolderBox) ) // Inline tables and inline blocks
return RenderBox::createInlineBox(false, false); // (or positioned element placeholders).
InlineFlowBox* flowBox = 0;
if (isInlineFlow())
flowBox = new (renderArena()) InlineFlowBox(this);
else
flowBox = new (renderArena()) RootInlineBox(this);
if (!m_firstLineBox) {
m_firstLineBox = m_lastLineBox = flowBox;
} else {
m_lastLineBox->setNextLineBox(flowBox);
flowBox->setPreviousLineBox(m_lastLineBox);
m_lastLineBox = flowBox;
}
return flowBox;
}
void RenderFlow::paintLines(PaintInfo& i, int _tx, int _ty)
{
// Only paint during the foreground/selection phases.
if (i.phase != PaintActionForeground && i.phase != PaintActionSelection && i.phase != PaintActionOutline)
return;
if (!firstLineBox())
return;
// We can check the first box and last box and avoid painting if we don't
// intersect. This is a quick short-circuit that we can take to avoid walking any lines.
// FIXME: This check is flawed in two extremely obscure ways.
// (1) If some line in the middle has a huge overflow, it might actually extend below the last line.
// (2) The overflow from an inline block on a line is not reported to the line.
int maxOutlineSize = maximalOutlineSize(i.phase);
int yPos = firstLineBox()->root()->topOverflow() - maxOutlineSize;
int h = maxOutlineSize + lastLineBox()->root()->bottomOverflow() - yPos;
yPos += _ty;
if ((yPos >= i.r.y() + i.r.height()) || (yPos + h <= i.r.y()))
return;
for (InlineFlowBox* curr = firstLineBox(); curr; curr = curr->nextFlowBox()) {
yPos = curr->root()->topOverflow() - maxOutlineSize;
h = curr->root()->bottomOverflow() + maxOutlineSize - yPos;
yPos += _ty;
if ((yPos < i.r.y() + i.r.height()) && (yPos + h > i.r.y()))
curr->paint(i, _tx, _ty);
}
if (i.phase == PaintActionOutline && i.outlineObjects) {
TQValueList<RenderFlow *>::iterator it;;
for( it = (*i.outlineObjects).begin(); it != (*i.outlineObjects).end(); ++it )
if ((*it)->isRenderInline())
static_cast<RenderInline*>(*it)->paintOutlines(i.p, _tx, _ty);
i.outlineObjects->clear();
}
}
bool RenderFlow::hitTestLines(NodeInfo& i, int x, int y, int tx, int ty, HitTestAction hitTestAction)
{
(void) hitTestAction;
/*
if (hitTestAction != HitTestForeground) // ### port hitTest
return false;
*/
if (!firstLineBox())
return false;
// We can check the first box and last box and avoid hit testing if we don't
// contain the point. This is a quick short-circuit that we can take to avoid walking any lines.
// FIXME: This check is flawed in two extremely obscure ways.
// (1) If some line in the middle has a huge overflow, it might actually extend below the last line.
// (2) The overflow from an inline block on a line is not reported to the line.
if ((y >= ty + lastLineBox()->root()->bottomOverflow()) || (y < ty + firstLineBox()->root()->topOverflow()))
return false;
// See if our root lines contain the point. If so, then we hit test
// them further. Note that boxes can easily overlap, so we can't make any assumptions
// based off positions of our first line box or our last line box.
for (InlineFlowBox* curr = lastLineBox(); curr; curr = curr->prevFlowBox()) {
if (y >= ty + curr->root()->topOverflow() && y < ty + curr->root()->bottomOverflow()) {
bool inside = curr->nodeAtPoint(i, x, y, tx, ty);
if (inside) {
setInnerNode(i);
return true;
}
}
}
return false;
}
void RenderFlow::repaint(Priority prior)
{
if (isInlineFlow()) {
// Find our leftmost position.
int left = 0;
// root inline box not reliably availabe during relayout
int top = firstLineBox() ? (
needsLayout() ? firstLineBox()->xPos() : firstLineBox()->root()->topOverflow()
) : 0;
for (InlineRunBox* curr = firstLineBox(); curr; curr = curr->nextLineBox())
if (curr == firstLineBox() || curr->xPos() < left)
left = curr->xPos();
// Now invalidate a rectangle.
int ow = style() ? style()->outlineSize() : 0;
// We need to add in the relative position offsets of any inlines (including us) up to our
// containing block.
RenderBlock* cb = containingBlock();
for (RenderObject* inlineFlow = this; inlineFlow && inlineFlow->isInlineFlow() && inlineFlow != cb;
inlineFlow = inlineFlow->parent()) {
if (inlineFlow->style() && inlineFlow->style()->position() == RELATIVE && inlineFlow->layer()) {
TDEHTMLAssert(inlineFlow->isBox());
static_cast<RenderBox*>(inlineFlow)->relativePositionOffset(left, top);
}
}
RootInlineBox *lastRoot = lastLineBox() && !needsLayout() ? lastLineBox()->root() : 0;
containingBlock()->repaintRectangle(-ow+left, -ow+top,
width()+ow*2,
(lastRoot ? lastRoot->bottomOverflow() - top : height())+ow*2, prior);
}
else {
if (firstLineBox() && firstLineBox()->topOverflow() < 0) {
int ow = style() ? style()->outlineSize() : 0;
repaintRectangle(-ow, -ow+firstLineBox()->topOverflow(),
effectiveWidth()+ow*2, effectiveHeight()+ow*2, prior);
}
else
return RenderBox::repaint(prior);
}
}
int
RenderFlow::lowestPosition(bool includeOverflowInterior, bool includeSelf) const
{
int bottom = RenderBox::lowestPosition(includeOverflowInterior, includeSelf);
if (!includeOverflowInterior && hasOverflowClip())
return bottom;
// FIXME: Come up with a way to use the layer tree to avoid visiting all the kids.
// For now, we have to descend into all the children, since we may have a huge abs div inside
// a tiny rel div buried somewhere deep in our child tree. In this case we have to get to
// the abs div.
for (RenderObject *c = firstChild(); c; c = c->nextSibling()) {
if (!c->isFloatingOrPositioned() && !c->isText() && !c->isInlineFlow()) {
int lp = c->yPos() + c->lowestPosition(false);
bottom = kMax(bottom, lp);
}
}
if (isRelPositioned()) {
int x;
relativePositionOffset(x, bottom);
}
return bottom;
}
int RenderFlow::rightmostPosition(bool includeOverflowInterior, bool includeSelf) const
{
int right = RenderBox::rightmostPosition(includeOverflowInterior, includeSelf);
if (!includeOverflowInterior && hasOverflowClip())
return right;
// FIXME: Come up with a way to use the layer tree to avoid visiting all the kids.
// For now, we have to descend into all the children, since we may have a huge abs div inside
// a tiny rel div buried somewhere deep in our child tree. In this case we have to get to
// the abs div.
for (RenderObject *c = firstChild(); c; c = c->nextSibling()) {
if (!c->isFloatingOrPositioned() && !c->isText() && !c->isInlineFlow()) {
int rp = c->xPos() + c->rightmostPosition(false);
right = kMax(right, rp);
}
}
if (isRelPositioned()) {
int y;
relativePositionOffset(right, y);
}
#ifdef DEBUG_LAYOUT
kdDebug(6040) << renderName() << "(RenderFlow)::rightmostPosition(" << includeOverflowInterior << "," << includeSelf << ") Rightmost position: " << right << endl;
#endif
return right;
}
int RenderFlow::leftmostPosition(bool includeOverflowInterior, bool includeSelf) const
{
int left = RenderBox::leftmostPosition(includeOverflowInterior, includeSelf);
if (!includeOverflowInterior && hasOverflowClip())
return left;
// FIXME: Come up with a way to use the layer tree to avoid visiting all the kids.
// For now, we have to descend into all the children, since we may have a huge abs div inside
// a tiny rel div buried somewhere deep in our child tree. In this case we have to get to
// the abs div.
for (RenderObject *c = firstChild(); c; c = c->nextSibling()) {
if (!c->isFloatingOrPositioned() && !c->isText() && !c->isInlineFlow()) {
int lp = c->xPos() + c->leftmostPosition(false);
left = kMin(left, lp);
}
}
if (isRelPositioned()) {
int y;
relativePositionOffset(left, y);
}
return left;
}
int RenderFlow::highestPosition(bool includeOverflowInterior, bool includeSelf) const
{
int top = RenderBox::highestPosition(includeOverflowInterior, includeSelf);
if (!includeOverflowInterior && hasOverflowClip())
return top;
// FIXME: Come up with a way to use the layer tree to avoid visiting all the kids.
// For now, we have to descend into all the children, since we may have a huge abs div inside
// a tiny rel div buried somewhere deep in our child tree. In this case we have to get to
// the abs div.
for (RenderObject *c = firstChild(); c; c = c->nextSibling()) {
if (!c->isFloatingOrPositioned() && !c->isText() && !c->isInlineFlow()) {
int hp = c->yPos() + c->highestPosition(false);
top = kMin(top, hp);
}
}
if (isRelPositioned()) {
int x;
relativePositionOffset(x, top);
}
return top;
}
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