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pjs/layout/generic/nsBlockFrame.cpp

4519 строки
139 KiB
C++
Исходник Обычный вид История

Removed css/layout directory
1998-09-15 04:19:49 +04:00
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
* http://www.mozilla.org/NPL/
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* The Original Code is Mozilla Communicator client code.
*
* The Initial Developer of the Original Code is Netscape Communications
* Corporation. Portions created by Netscape are Copyright (C) 1998
* Netscape Communications Corporation. All Rights Reserved.
*/
#include "nsBlockFrame.h"
#include "nsLineLayout.h"
#include "nsInlineLayout.h"
#include "nsCSSLayout.h"
#include "nsPlaceholderFrame.h"
#include "nsStyleConsts.h"
#include "nsHTMLIIDs.h"
#include "nsCSSRendering.h"
#include "nsIAnchoredItems.h"
#include "nsIFloaterContainer.h"
#include "nsIPresContext.h"
#include "nsIPresShell.h"
#include "nsIReflowCommand.h"
#include "nsIRunaround.h"
#include "nsIStyleContext.h"
#include "nsIView.h"
#include "nsIFontMetrics.h"
#include "nsHTMLBase.h"// XXX rename to nsBase?
#include "nsHTMLParts.h"// XXX html reflow command???
#include "nsHTMLAtoms.h"// XXX list ordinal hack
#include "nsHTMLValue.h"// XXX list ordinal hack
#include "nsIHTMLContent.h"// XXX list ordinal hack
//#include "js/jsapi.h"
//#include "nsDOMEvent.h"
#define DOM_EVENT_INIT 0x0001
#include "prprf.h"
// XXX mLastContentOffset, mFirstContentOffset, mLastContentIsComplete
// XXX pagination
// XXX prev-in-flow continuations
// XXX IsFirstChild
// XXX max-element-size
// XXX no-wrap
// XXX margin collapsing and empty InlineFrameData's
// XXX floaters in inlines
// XXX Check handling of mUnconstrainedWidth
// XXX MULTICOL support; note that multicol will end up using the
// equivalent of pagination! Therefore we should probably make sure
// the pagination code isn't completely stupid.
// XXX better lists (bullet numbering)
// XXX page-breaks
// XXX out of memory checks are missing
// XXX push code can record the y coordinate where the push occurred
// and the width that the data was flowed against and also indicate
// which frames were reflowed and which weren't. Then drain code can just
// place the pulled up data directly when there are no floaters to
// worry about. something like that...
// XXX Tuneup: if mNoWrap is true and we are given a ResizeReflow we
// can just return because there's nothing to do!; this is true in
// nsInlineFrame too!
// Except that noWrap is ignored if the containers width is too small
// (like a table cell with a fixed width.)
//----------------------------------------------------------------------
// XXX It's really important that blocks strip out extra whitespace;
// otherwise we will see ALOT of this, which will waste memory big time:
//
// <fd(inline - empty height because of compressed \n)>
// <fd(block)>
// <fd(inline - empty height because of compressed \n)>
// <fd(block)>
// ...
//----------------------------------------------------------------------
// XXX I don't want mFirstChild, mChildCount, mOverflowList,
// mLastContentIsComplete in our base class!!!
struct LineData;
// XXX Death to pseudo-frames!!!!!
#define DTPF 1
// XXX temporary until PropagateContentOffsets can be written genericly
#define nsBlockFrameSuper nsHTMLContainerFrame
class nsBlockFrame : public nsBlockFrameSuper,
public nsIRunaround,
public nsIFloaterContainer
{
public:
nsBlockFrame(nsIContent* aContent, nsIFrame* aParent);
// nsISupports
NS_IMETHOD QueryInterface(const nsIID& aIID, void** aInstancePtr);
// nsIFrame
NS_IMETHOD Init(nsIPresContext& aPresContext, nsIFrame* aChildList);
NS_IMETHOD DeleteFrame(nsIPresContext& aPresContext);
NS_IMETHOD ChildCount(PRInt32& aChildCount) const;
NS_IMETHOD ChildAt(PRInt32 aIndex, nsIFrame*& aFrame) const;
NS_IMETHOD IndexOf(const nsIFrame* aChild, PRInt32& aIndex) const;
NS_IMETHOD FirstChild(nsIFrame*& aFirstChild) const;
NS_IMETHOD NextChild(const nsIFrame* aChild, nsIFrame*& aNextChild) const;
NS_IMETHOD PrevChild(const nsIFrame* aChild, nsIFrame*& aPrevChild) const;
NS_IMETHOD LastChild(nsIFrame*& aLastChild) const;
NS_IMETHOD IsSplittable(nsSplittableType& aIsSplittable) const;
NS_IMETHOD CreateContinuingFrame(nsIPresContext& aPresContext,
nsIFrame* aParent,
nsIStyleContext* aStyleContext,
nsIFrame*& aContinuingFrame);
NS_IMETHOD Paint(nsIPresContext& aPresContext,
nsIRenderingContext& aRenderingContext,
const nsRect& aDirtyRect);
Removed code that's no longer needed now that tables are using new frame construction code
1998-09-18 03:46:16 +04:00
Removed css/layout directory
1998-09-15 04:19:49 +04:00
NS_IMETHOD ContentInserted(nsIPresShell* aShell,
nsIPresContext* aPresContext,
nsIContent* aContainer,
nsIContent* aChild,
PRInt32 aIndexInParent);
NS_IMETHOD ContentDeleted(nsIPresShell* aShell,
nsIPresContext* aPresContext,
nsIContent* aContainer,
nsIContent* aChild,
PRInt32 aIndexInParent);
#if XXX
NS_IMETHOD DidReflow(nsIPresContext& aPresContext,
nsDidReflowStatus aStatus);
#endif
NS_IMETHOD List(FILE* out, PRInt32 aIndent, nsIListFilter *aFilter = nsnull) const;
NS_IMETHOD ListTag(FILE* out) const;
NS_IMETHOD VerifyTree() const;
// XXX implement regular reflow method too!
// nsIRunaround
NS_IMETHOD ReflowAround(nsIPresContext& aPresContext,
nsISpaceManager* aSpaceManager,
nsReflowMetrics& aDesiredSize,
const nsReflowState& aReflowState,
nsRect& aDesiredRect,
nsReflowStatus& aStatus);
// nsIFloaterContainer
virtual PRBool AddFloater(nsIPresContext* aPresContext,
const nsReflowState& aPlaceholderReflowState,
nsIFrame* aFloater,
nsPlaceholderFrame* aPlaceholder);
#ifdef DO_SELECTION
NS_IMETHOD HandleEvent(nsIPresContext& aPresContext,
nsGUIEvent* aEvent,
nsEventStatus& aEventStatus);
NS_IMETHOD HandleDrag(nsIPresContext& aPresContext,
nsGUIEvent* aEvent,
nsEventStatus& aEventStatus);
nsIFrame * FindHitFrame(nsBlockFrame * aBlockFrame,
const nscoord aX, const nscoord aY,
const nsPoint & aPoint);
#endif
protected:
~nsBlockFrame();
#if 0
PRInt32 GetFirstContentOffset() const;
PRInt32 GetLastContentOffset() const;
PRBool GetLastContentIsComplete() const;
#endif
virtual PRBool DeleteNextInFlowsFor(nsIPresContext& aPresContext, nsIFrame* aNextInFlow);
PRBool DrainOverflowLines();
PRBool RemoveChild(LineData* aLines, nsIFrame* aChild);
nsresult ProcessInitialReflow(nsIPresContext* aPresContext);
//XXX void PropagateContentOffsets();
PRIntn GetSkipSides() const;
PRBool IsPseudoFrame() const;
nsresult InitialReflow(nsBlockReflowState& aState);
nsresult FrameAppendedReflow(nsBlockReflowState& aState);
nsresult InsertNewFrame(nsBlockFrame* aParentFrame,
nsIFrame* aNewFrame,
nsIFrame* aPrevSibling);
nsresult FrameInsertedReflow(nsBlockReflowState& aState);
nsresult FrameDeletedReflow(nsBlockReflowState& aState);
nsresult FindTextRuns(nsBlockReflowState& aState);
nsresult ChildIncrementalReflow(nsBlockReflowState& aState);
nsresult ResizeReflow(nsBlockReflowState& aState);
void ComputeFinalSize(nsBlockReflowState& aState,
nsReflowMetrics& aMetrics,
nsRect& aDesiredRect);
nsresult ReflowLinesAt(nsBlockReflowState& aState, LineData* aLine);
PRBool ReflowLine(nsBlockReflowState& aState,
LineData* aLine,
nsInlineReflowStatus& aReflowResult);
PRBool PlaceLine(nsBlockReflowState& aState,
LineData* aLine,
nsInlineReflowStatus aReflowStatus);
void FindFloaters(LineData* aLine);
PRBool ReflowInlineFrame(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
nsInlineReflowStatus& aResult);
nsresult SplitLine(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
PRBool aLineWasComplete);
PRBool ReflowBlockFrame(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
nsInlineReflowStatus& aResult);
PRBool PullFrame(nsBlockReflowState& aState,
LineData* aToLine,
LineData** aFromList,
PRBool aUpdateGeometricParent,
nsInlineReflowStatus& aResult);
void PushLines(nsBlockReflowState& aState);
void ReflowFloater(nsIPresContext* aPresContext,
nsBlockReflowState& aState,
nsIFrame* aFloaterFrame);
void PaintChildren(nsIPresContext& aPresContext,
nsIRenderingContext& aRenderingContext,
const nsRect& aDirtyRect);
nsresult AppendNewFrames(nsIPresContext* aPresContext, nsIFrame*);
#ifdef NS_DEBUG
PRBool IsChild(nsIFrame* aFrame);
#endif
LineData* mLines;
LineData* mOverflowLines;
// placeholder frames for floaters to display at the top line
// nsVoidArray* mRunInFloaters;
// Text run information
nsTextRun* mTextRuns;
// XXX TEMP
PRBool mHasBeenInitialized;
friend struct nsBlockReflowState;
};
//----------------------------------------------------------------------
#define LINE_IS_DIRTY 0x1
#define LINE_IS_BLOCK 0x2
#define LINE_LAST_CONTENT_IS_COMPLETE 0x4
#define LINE_NEED_DID_REFLOW 0x8
struct LineData {
LineData(nsIFrame* aFrame, PRInt32 aCount, PRUint16 flags) {
mFirstChild = aFrame;
mChildCount = aCount;
mState = LINE_IS_DIRTY | LINE_NEED_DID_REFLOW | flags;
mFloaters = nsnull;
mNext = nsnull;
mInnerBottomMargin = 0;
mOuterBottomMargin = 0;
mBounds.SetRect(0,0,0,0);
}
~LineData();
void List(FILE* out, PRInt32 aIndent, nsIListFilter *aFilter = nsnull,
PRBool aOutputMe=PR_TRUE) const;
nsIFrame* LastChild() const;
PRBool IsLastChild(nsIFrame* aFrame) const;
void SetLastContentIsComplete() {
mState |= LINE_LAST_CONTENT_IS_COMPLETE;
}
void ClearLastContentIsComplete() {
mState &= ~LINE_LAST_CONTENT_IS_COMPLETE;
}
void SetLastContentIsComplete(PRBool aValue) {
if (aValue) {
SetLastContentIsComplete();
}
else {
ClearLastContentIsComplete();
}
}
PRBool GetLastContentIsComplete() {
return 0 != (LINE_LAST_CONTENT_IS_COMPLETE & mState);
}
PRBool IsBlock() const {
return 0 != (LINE_IS_BLOCK & mState);
}
void SetIsBlock() {
mState |= LINE_IS_BLOCK;
}
void ClearIsBlock() {
mState &= ~LINE_IS_BLOCK;
}
void SetIsBlock(PRBool aValue) {
if (aValue) {
SetIsBlock();
}
else {
ClearIsBlock();
}
}
void MarkDirty() {
mState |= LINE_IS_DIRTY;
}
void ClearDirty() {
mState &= ~LINE_IS_DIRTY;
}
void SetNeedDidReflow() {
mState |= LINE_NEED_DID_REFLOW;
}
void ClearNeedDidReflow() {
mState &= ~LINE_NEED_DID_REFLOW;
}
PRBool NeedsDidReflow() {
return 0 != (LINE_NEED_DID_REFLOW & mState);
}
PRBool IsDirty() const {
return 0 != (LINE_IS_DIRTY & mState);
}
PRUint16 GetState() const { return mState; }
char* StateToString(char* aBuf, PRInt32 aBufSize) const;
PRBool Contains(nsIFrame* aFrame) const;
#ifdef NS_DEBUG
void Verify();
#endif
nsIFrame* mFirstChild;
PRUint16 mChildCount;
PRUint16 mState;
nsRect mBounds;
nscoord mInnerBottomMargin;
nscoord mOuterBottomMargin;
nsVoidArray* mFloaters;
LineData* mNext;
};
LineData::~LineData()
{
if (nsnull != mFloaters) {
delete mFloaters;
}
}
static void
ListFloaters(FILE* out, nsVoidArray* aFloaters)
{
PRInt32 i, n = aFloaters->Count();
for (i = 0; i < n; i++) {
nsIFrame* frame = (nsIFrame*) aFloaters->ElementAt(i);
frame->ListTag(out);
if (i < n - 1) fputs(" ", out);
}
}
static void
ListTextRuns(FILE* out, PRInt32 aIndent, nsTextRun* aRuns)
{
while (nsnull != aRuns) {
aRuns->List(out, aIndent);
aRuns = aRuns->mNext;
}
}
char*
LineData::StateToString(char* aBuf, PRInt32 aBufSize) const
{
PR_snprintf(aBuf, aBufSize, "%s,%s,%scomplete",
(mState & LINE_IS_DIRTY) ? "dirty" : "clean",
(mState & LINE_IS_BLOCK) ? "block" : "inline",
(mState & LINE_LAST_CONTENT_IS_COMPLETE) ? "" : "!");
return aBuf;
}
void
LineData::List(FILE* out, PRInt32 aIndent, nsIListFilter *aFilter,
PRBool aOutputMe) const
{
// if a filter is present, only output this frame if the filter says we should
PRInt32 i;
if (PR_TRUE==aOutputMe)
{
for (i = aIndent; --i >= 0; ) fputs(" ", out);
char cbuf[100];
fprintf(out, "line %p: count=%d state=%s {%d,%d,%d,%d} ibm=%d obm=%d <\n",
this, mChildCount, StateToString(cbuf, sizeof(cbuf)),
mBounds.x, mBounds.y, mBounds.width, mBounds.height,
mInnerBottomMargin, mOuterBottomMargin);
}
nsIFrame* frame = mFirstChild;
PRInt32 n = mChildCount;
while (--n >= 0) {
frame->List(out, aIndent + 1, aFilter);
frame->GetNextSibling(frame);
}
if (PR_TRUE==aOutputMe)
{
for (i = aIndent; --i >= 0; ) fputs(" ", out);
if (nsnull != mFloaters) {
fputs("> bcl-floaters=<", out);
ListFloaters(out, mFloaters);
}
fputs(">\n", out);
}
}
nsIFrame*
LineData::LastChild() const
{
nsIFrame* frame = mFirstChild;
PRInt32 n = mChildCount - 1;
while (--n >= 0) {
frame->GetNextSibling(frame);
}
return frame;
}
PRBool
LineData::IsLastChild(nsIFrame* aFrame) const
{
nsIFrame* lastFrame = LastChild();
return aFrame == lastFrame;
}
PRBool
LineData::Contains(nsIFrame* aFrame) const
{
PRInt32 n = mChildCount;
nsIFrame* frame = mFirstChild;
while (--n >= 0) {
if (frame == aFrame) {
return PR_TRUE;
}
frame->GetNextSibling(frame);
}
return PR_FALSE;
}
static PRInt32
LengthOf(nsIFrame* aFrame)
{
PRInt32 result = 0;
while (nsnull != aFrame) {
result++;
aFrame->GetNextSibling(aFrame);
}
return result;
}
#ifdef NS_DEBUG
void
LineData::Verify()
{
nsIFrame* lastFrame = LastChild();
if (nsnull != lastFrame) {
nsIFrame* nextInFlow;
lastFrame->GetNextInFlow(nextInFlow);
if (GetLastContentIsComplete()) {
NS_ASSERTION(nsnull == nextInFlow, "bad mState");
}
if (nsnull != mNext) {
nsIFrame* nextSibling;
lastFrame->GetNextSibling(nextSibling);
NS_ASSERTION(mNext->mFirstChild == nextSibling, "bad line list");
}
}
PRInt32 len = LengthOf(mFirstChild);
NS_ASSERTION(len >= mChildCount, "bad mChildCount");
}
static void
VerifyLines(LineData* aLine)
{
while (nsnull != aLine) {
aLine->Verify();
aLine = aLine->mNext;
}
}
static void
VerifyChildCount(LineData* aLines, PRBool aEmptyOK = PR_FALSE)
{
if (nsnull != aLines) {
PRInt32 childCount = LengthOf(aLines->mFirstChild);
PRInt32 sum = 0;
LineData* line = aLines;
while (nsnull != line) {
if (!aEmptyOK) {
NS_ASSERTION(0 != line->mChildCount, "empty line left in line list");
}
sum += line->mChildCount;
line = line->mNext;
}
if (sum != childCount) {
printf("Bad sibling list/line mChildCount's\n");
LineData* line = aLines;
while (nsnull != line) {
line->List(stdout, 1);
if (nsnull != line->mNext) {
nsIFrame* lastFrame = line->LastChild();
if (nsnull != lastFrame) {
nsIFrame* nextSibling;
lastFrame->GetNextSibling(nextSibling);
if (line->mNext->mFirstChild != nextSibling) {
printf(" [list broken: nextSibling=%p mNext->mFirstChild=%p]\n",
nextSibling, line->mNext->mFirstChild);
}
}
}
line = line->mNext;
}
NS_ASSERTION(sum == childCount, "bad sibling list/line mChildCount's");
}
}
}
#endif
static void
DeleteLineList(nsIPresContext& aPresContext, LineData* aLine)
{
if (nsnull != aLine) {
// Delete our child frames before doing anything else. In particular
// we do all of this before our base class releases it's hold on the
// view.
for (nsIFrame* child = aLine->mFirstChild; child; ) {
nsIFrame* nextChild;
child->GetNextSibling(nextChild);
child->DeleteFrame(aPresContext);
child = nextChild;
}
while (nsnull != aLine) {
LineData* next = aLine->mNext;
delete aLine;
aLine = next;
}
}
}
static LineData*
LastLine(LineData* aLine)
{
if (nsnull != aLine) {
while (nsnull != aLine->mNext) {
aLine = aLine->mNext;
}
}
return aLine;
}
static LineData*
FindLineContaining(LineData* aLine, nsIFrame* aFrame)
{
while (nsnull != aLine) {
if (aLine->Contains(aFrame)) {
return aLine;
}
aLine = aLine->mNext;
}
return nsnull;
}
//----------------------------------------------------------------------
void nsBlockReflowState::BlockBandData::ComputeAvailSpaceRect()
{
nsBandTrapezoid* trapezoid = data;
if (count > 1) {
// If there's more than one trapezoid that means there are floaters
PRInt32 i;
// Stop when we get to space occupied by a right floater, or when we've
// looked at every trapezoid and none are right floaters
for (i = 0; i < count; i++) {
nsBandTrapezoid* trapezoid = &data[i];
if (trapezoid->state != nsBandTrapezoid::Available) {
const nsStyleDisplay* display;
if (nsBandTrapezoid::OccupiedMultiple == trapezoid->state) {
PRInt32 j, numFrames = trapezoid->frames->Count();
NS_ASSERTION(numFrames > 0, "bad trapezoid frame list");
for (j = 0; j < numFrames; j++) {
nsIFrame* f = (nsIFrame*)trapezoid->frames->ElementAt(j);
f->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)display);
if (NS_STYLE_FLOAT_RIGHT == display->mFloats) {
goto foundRightFloater;
}
}
} else {
trapezoid->frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)display);
if (NS_STYLE_FLOAT_RIGHT == display->mFloats) {
break;
}
}
}
}
foundRightFloater:
if (i > 0) {
trapezoid = &data[i - 1];
}
}
if (nsBandTrapezoid::Available == trapezoid->state) {
// The trapezoid is available
trapezoid->GetRect(availSpace);
} else {
const nsStyleDisplay* display;
// The trapezoid is occupied. That means there's no available space
trapezoid->GetRect(availSpace);
// XXX Better handle the case of multiple frames
if (nsBandTrapezoid::Occupied == trapezoid->state) {
trapezoid->frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)display);
if (NS_STYLE_FLOAT_LEFT == display->mFloats) {
availSpace.x = availSpace.XMost();
}
}
availSpace.width = 0;
}
}
//----------------------------------------------------------------------
static nscoord
GetParentLeftPadding(const nsReflowState* aReflowState)
{
nscoord leftPadding = 0;
while (nsnull != aReflowState) {
nsIFrame* frame = aReflowState->frame;
const nsStyleDisplay* styleDisplay;
frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&) styleDisplay);
if (NS_STYLE_DISPLAY_BLOCK == styleDisplay->mDisplay) {
const nsStyleSpacing* styleSpacing;
frame->GetStyleData(eStyleStruct_Spacing,
(const nsStyleStruct*&) styleSpacing);
nsMargin padding;
styleSpacing->CalcPaddingFor(frame, padding);
leftPadding = padding.left;
break;
}
aReflowState = aReflowState->parentReflowState;
}
return leftPadding;
}
nsBlockReflowState::nsBlockReflowState(nsIPresContext* aPresContext,
nsISpaceManager* aSpaceManager,
nsBlockFrame* aBlock,
nsIStyleContext* aBlockSC,
const nsReflowState& aReflowState,
nsReflowMetrics& aMetrics,
PRBool aComputeMaxElementSize)
: nsReflowState(aReflowState),
mLineLayout(aPresContext, aSpaceManager),
mInlineLayout(mLineLayout, aBlock, aBlockSC)
{
mLineLayout.Init(this);
mInlineLayout.Init(this);
mSpaceManager = aSpaceManager;
// Save away the outer coordinate system origin for later
mSpaceManager->GetTranslation(mSpaceManagerX, mSpaceManagerY);
mPresContext = aPresContext;
mBlock = aBlock;
mBlockIsPseudo = aBlock->IsPseudoFrame();
aBlock->GetNextInFlow((nsIFrame*&)mNextInFlow);
mPrevBottomMargin = 0;
mOuterTopMargin = aMetrics.posTopMargin;
mKidXMost = 0;
mX = 0;
mY = 0;
mUnconstrainedWidth = maxSize.width == NS_UNCONSTRAINEDSIZE;
mUnconstrainedHeight = maxSize.height == NS_UNCONSTRAINEDSIZE;
#ifdef NS_DEBUG
if (!mUnconstrainedWidth && (maxSize.width > 100000)) {
mBlock->ListTag(stdout);
printf(": bad parent: maxSize WAS %d,%d\n",
maxSize.width, maxSize.height);
maxSize.width = NS_UNCONSTRAINEDSIZE;
mUnconstrainedWidth = PR_TRUE;
}
if (!mUnconstrainedHeight && (maxSize.height > 100000)) {
mBlock->ListTag(stdout);
printf(": bad parent: maxSize WAS %d,%d\n",
maxSize.width, maxSize.height);
maxSize.height = NS_UNCONSTRAINEDSIZE;
mUnconstrainedHeight = PR_TRUE;
}
#endif
mComputeMaxElementSize = aComputeMaxElementSize;
if (mComputeMaxElementSize) {
mMaxElementSize.width = 0;
mMaxElementSize.height = 0;
}
mHaveBlockMaxWidth = PR_FALSE;
// Set mNoWrap flag
const nsStyleText* blockText = (const nsStyleText*)
aBlockSC->GetStyleData(eStyleStruct_Text);
switch (blockText->mWhiteSpace) {
case NS_STYLE_WHITESPACE_PRE:
case NS_STYLE_WHITESPACE_NOWRAP:
mNoWrap = PR_TRUE;
break;
default:
mNoWrap = PR_FALSE;
break;
}
mTextAlign = blockText->mTextAlign;
const nsStyleDisplay* styleDisplay = (const nsStyleDisplay*)
aBlockSC->GetStyleData(eStyleStruct_Display);
mDirection = styleDisplay->mDirection;
mBulletPadding = 0;
if (NS_STYLE_DISPLAY_LIST_ITEM == styleDisplay->mDisplay) {
const nsStyleList* sl = (const nsStyleList*)
aBlockSC->GetStyleData(eStyleStruct_List);
if (NS_STYLE_LIST_STYLE_POSITION_OUTSIDE == sl->mListStylePosition) {
mLineLayout.mListPositionOutside = PR_TRUE;
mBulletPadding = GetParentLeftPadding(aReflowState.parentReflowState);
}
}
const nsStyleSpacing* blockSpacing = (const nsStyleSpacing*)
aBlockSC->GetStyleData(eStyleStruct_Spacing);
nsMargin padding;
blockSpacing->CalcPaddingFor(mBlock, padding);
mLeftPadding = padding.left;
// Apply border and padding adjustments for regular frames only
nsRect blockRect;
mBlock->GetRect(blockRect);
mStyleSizeFlags = 0;
if (!mBlockIsPseudo) {
blockSpacing->CalcBorderPaddingFor(mBlock, mBorderPadding);
mY = mBorderPadding.top;
mX = mBorderPadding.left;
if (mUnconstrainedWidth) {
// If our width is unconstrained don't bother futzing with the
// available width/height because they don't matter - we are
// going to get reflowed again.
mDeltaWidth = NS_UNCONSTRAINEDSIZE;
mInnerSize.width = NS_UNCONSTRAINEDSIZE;
}
else {
// When we are constrained we need to apply the width/height
// style properties. When we have a width/height it applies to
// the content width/height of our box. The content width/height
// doesn't include the border+padding so we have to add that in
// instead of subtracting it out of our maxsize.
nscoord lr = mBorderPadding.left + mBorderPadding.right;
// Get and apply the stylistic size. Note: do not limit the
// height until we are done reflowing.
PRIntn ss = nsCSSLayout::GetStyleSize(aPresContext, aReflowState,
mStyleSize);
mStyleSizeFlags = ss;
if (0 != (ss & NS_SIZE_HAS_WIDTH)) {
// CSS2 spec says that the width attribute defines the width
// of the "content area" which does not include the border
// padding. So we add those back in.
mInnerSize.width = mStyleSize.width + lr;
}
else {
mInnerSize.width = maxSize.width - lr;
}
mDeltaWidth = maxSize.width - blockRect.width;
}
if (mUnconstrainedHeight) {
mInnerSize.height = maxSize.height;
mBottomEdge = maxSize.height;
}
else {
nscoord tb = mBorderPadding.top + mBorderPadding.bottom;
mInnerSize.height = maxSize.height - tb;
mBottomEdge = maxSize.height - mBorderPadding.bottom;
}
}
else {
mBorderPadding.SizeTo(0, 0, 0, 0);
mDeltaWidth = maxSize.width - blockRect.width;
mInnerSize = maxSize;
mBottomEdge = maxSize.height;
}
// Now translate in by our border and padding
mSpaceManager->Translate(mBorderPadding.left, mBorderPadding.top);
mPrevChild = nsnull;
mFreeList = nsnull;
mPrevLine = nsnull;
// Setup initial list ordinal value
// XXX translate the starting value to a css style type and stop
// doing this!
mNextListOrdinal = -1;
nsIContent* blockContent;
mBlock->GetContent(blockContent);
nsIAtom* tag;
blockContent->GetTag(tag);
if ((tag == nsHTMLAtoms::ul) || (tag == nsHTMLAtoms::ol) ||
(tag == nsHTMLAtoms::menu) || (tag == nsHTMLAtoms::dir)) {
nsHTMLValue value;
if (NS_CONTENT_ATTR_HAS_VALUE ==
((nsIHTMLContent*)blockContent)->GetAttribute(nsHTMLAtoms::start,
value)) {
if (eHTMLUnit_Integer == value.GetUnit()) {
mNextListOrdinal = value.GetIntValue();
}
}
}
NS_IF_RELEASE(tag);
NS_RELEASE(blockContent);
}
nsBlockReflowState::~nsBlockReflowState()
{
// Restore the coordinate system
mSpaceManager->Translate(-mBorderPadding.left, -mBorderPadding.top);
LineData* line = mFreeList;
while (nsnull != line) {
NS_ASSERTION((0 == line->mChildCount) && (nsnull == line->mFirstChild),
"bad free line");
LineData* next = line->mNext;
delete line;
line = next;
}
}
// Get the available reflow space for the current y coordinate. The
// available space is relative to our coordinate system (0,0) is our
// upper left corner.
void
nsBlockReflowState::GetAvailableSpace()
{
nsISpaceManager* sm = mSpaceManager;
#ifdef NS_DEBUG
// Verify that the caller setup the coordinate system properly
nscoord wx, wy;
sm->GetTranslation(wx, wy);
nscoord cx = mSpaceManagerX + mBorderPadding.left;
nscoord cy = mSpaceManagerY + mBorderPadding.top;
NS_ASSERTION((wx == cx) && (wy == cy), "bad coord system");
#endif
// Fill in band data for the specific Y coordinate
sm->GetBandData(mY, mInnerSize, mCurrentBand);
// Compute the bounding rect of the available space, i.e. space
// between any left and right floaters.
mCurrentBand.ComputeAvailSpaceRect();
NS_FRAME_LOG(NS_FRAME_TRACE_CALLS,
("nsBlockReflowState::GetAvailableSpace: band={%d,%d,%d,%d} count=%d",
mCurrentBand.availSpace.x, mCurrentBand.availSpace.y,
mCurrentBand.availSpace.width, mCurrentBand.availSpace.height,
mCurrentBand.count));
}
//----------------------------------------------------------------------
nsresult
Cleaned up frame construction code
1998-09-17 08:07:58 +04:00
NS_NewBlockFrame(nsIContent* aContent, nsIFrame* aParentFrame,
nsIFrame*& aNewFrame)
Removed css/layout directory
1998-09-15 04:19:49 +04:00
{
Cleaned up frame construction code
1998-09-17 08:07:58 +04:00
aNewFrame = new nsBlockFrame(aContent, aParentFrame);
if (nsnull == aNewFrame) {
Removed css/layout directory
1998-09-15 04:19:49 +04:00
return NS_ERROR_OUT_OF_MEMORY;
}
return NS_OK;
}
nsBlockFrame::nsBlockFrame(nsIContent* aContent, nsIFrame* aParent)
: nsBlockFrameSuper(aContent, aParent)
{
mHasBeenInitialized = PR_FALSE;
}
nsBlockFrame::~nsBlockFrame()
{
// if (nsnull != mRunInFloaters) {
// delete mRunInFloaters;
// }
nsTextRun::DeleteTextRuns(mTextRuns);
}
NS_IMETHODIMP
nsBlockFrame::QueryInterface(const nsIID& aIID, void** aInstancePtr)
{
NS_PRECONDITION(0 != aInstancePtr, "null ptr");
if (NULL == aInstancePtr) {
return NS_ERROR_NULL_POINTER;
}
// XXX temporary
if (aIID.Equals(kBlockFrameCID)) {
*aInstancePtr = (void*) (this);
return NS_OK;
}
if (aIID.Equals(kIRunaroundIID)) {
*aInstancePtr = (void*) ((nsIRunaround*) this);
return NS_OK;
}
if (aIID.Equals(kIFloaterContainerIID)) {
*aInstancePtr = (void*) ((nsIFloaterContainer*) this);
return NS_OK;
}
return nsBlockFrameSuper::QueryInterface(aIID, aInstancePtr);
}
NS_IMETHODIMP
nsBlockFrame::Init(nsIPresContext& aPresContext, nsIFrame* aChildList)
{
mHasBeenInitialized = PR_TRUE;
return AppendNewFrames(&aPresContext, aChildList);
}
NS_IMETHODIMP
nsBlockFrame::DeleteFrame(nsIPresContext& aPresContext)
{
DeleteLineList(aPresContext, mLines);
DeleteLineList(aPresContext, mOverflowLines);
nsBlockFrameSuper::DeleteFrame(aPresContext);
return NS_OK;
}
PRBool
nsBlockFrame::IsPseudoFrame() const
{
PRBool result = PR_FALSE;
if (nsnull != mGeometricParent) {
nsIContent* parentContent;
mGeometricParent->GetContent(parentContent);
if (parentContent == mContent) {
result = PR_TRUE;
}
NS_RELEASE(parentContent);
}
return result;
}
NS_IMETHODIMP
nsBlockFrame::IsSplittable(nsSplittableType& aIsSplittable) const
{
aIsSplittable = NS_FRAME_SPLITTABLE_NON_RECTANGULAR;
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::CreateContinuingFrame(nsIPresContext& aCX,
nsIFrame* aParent,
nsIStyleContext* aStyleContext,
nsIFrame*& aContinuingFrame)
{
nsBlockFrame* cf = new nsBlockFrame(mContent, aParent);
if (nsnull == cf) {
return NS_ERROR_OUT_OF_MEMORY;
}
PrepareContinuingFrame(aCX, aParent, aStyleContext, cf);
aContinuingFrame = cf;
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::CreateContinuingFrame: newFrame=%p", cf));
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::ListTag(FILE* out) const
{
if ((nsnull != mGeometricParent) && IsPseudoFrame()) {
fprintf(out, "*block<");
nsIAtom* atom;
mContent->GetTag(atom);
if (nsnull != atom) {
nsAutoString tmp;
atom->ToString(tmp);
fputs(tmp, out);
}
PRInt32 contentIndex;
GetContentIndex(contentIndex);
fprintf(out, ">(%d)@%p", contentIndex, this);
} else {
nsBlockFrameSuper::ListTag(out);
}
return NS_OK;
}
NS_METHOD
nsBlockFrame::List(FILE* out, PRInt32 aIndent, nsIListFilter *aFilter) const
{
// if a filter is present, only output this frame if the filter says we should
nsIAtom* tag;
nsAutoString tagString;
mContent->GetTag(tag);
if (tag != nsnull)
{
tag->ToString(tagString);
NS_RELEASE(tag);
}
PRInt32 i;
PRBool outputMe = (PRBool)((nsnull==aFilter) || ((PR_TRUE==aFilter->OutputTag(&tagString)) && (!IsPseudoFrame())));
if (PR_TRUE==outputMe)
{
// Indent
for (i = aIndent; --i >= 0; ) fputs(" ", out);
// Output the tag
ListTag(out);
nsIView* view;
GetView(view);
if (nsnull != view) {
fprintf(out, " [view=%p]", view);
}
// Output the first/last content offset
fprintf(out, "[%d,%d,%c] ",
GetFirstContentOffset(), GetLastContentOffset(),
(GetLastContentIsComplete() ? 'T' : 'F'));
if (nsnull != mPrevInFlow) {
fprintf(out, "prev-in-flow=%p ", mPrevInFlow);
}
if (nsnull != mNextInFlow) {
fprintf(out, "next-in-flow=%p ", mNextInFlow);
}
// Output the rect and state
out << mRect;
if (0 != mState) {
fprintf(out, " [state=%08x]", mState);
}
#if XXX
// Dump run-in floaters
if (nsnull != mRunInFloaters) {
fputs(" run-in-floaters=<", out);
ListFloaters(out, mRunInFloaters);
for (i = aIndent; --i >= 0; ) fputs(" ", out);
fputs(">", out);
}
#endif
}
// Output the children, one line at a time
if (nsnull != mLines) {
if (PR_TRUE==outputMe)
fputs("<\n", out);
aIndent++;
LineData* line = mLines;
while (nsnull != line) {
line->List(out, aIndent, aFilter, outputMe);
line = line->mNext;
}
aIndent--;
if (PR_TRUE==outputMe)
{
for (i = aIndent; --i >= 0; ) fputs(" ", out);
fputs(">", out);
}
}
else {
if (PR_TRUE==outputMe)
fputs("<>", out);
}
if (PR_TRUE==outputMe)
{
// Output the text-runs
if (nsnull != mTextRuns) {
fputs(" text-runs=<\n", out);
ListTextRuns(out, aIndent + 1, mTextRuns);
for (i = aIndent; --i >= 0; ) fputs(" ", out);
fputs(">", out);
}
fputs("\n", out);
}
return NS_OK;
}
/////////////////////////////////////////////////////////////////////////////
// Child frame enumeration
NS_IMETHODIMP
nsBlockFrame::ChildCount(PRInt32& aChildCount) const
{
PRInt32 sum = 0;
LineData* line = mLines;
while (nsnull != line) {
sum += line->mChildCount;
line = line->mNext;
}
aChildCount = sum;
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::ChildAt(PRInt32 aIndex, nsIFrame*& aFrame) const
{
LineData* line = mLines;
if ((aIndex >= 0) && (nsnull != line)) {
// First find the line that contains the aIndex
while (nsnull != line) {
PRInt32 n = line->mChildCount;
if (aIndex < n) {
// Then find the frame in the line
nsIFrame* frame = mLines->mFirstChild;
while (--n >= 0) {
if (0 == aIndex) {
aFrame = frame;
return NS_OK;
}
aIndex--;
frame->GetNextSibling(frame);
}
NS_NOTREACHED("line mChildCount wrong");
}
aIndex -= line->mChildCount;
line = line->mNext;
}
}
aFrame = nsnull;
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::IndexOf(const nsIFrame* aChild, PRInt32& aIndex) const
{
aIndex = -1;
if (nsnull != mLines) {
PRInt32 index = 0;
nsIFrame* frame = mLines->mFirstChild;
NS_ASSERTION(nsnull != frame, "bad mLines");
while (nsnull != frame) {
if (frame == aChild) {
aIndex = index;
break;
}
index++;
frame->GetNextSibling(frame);
}
}
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::FirstChild(nsIFrame*& aFirstChild) const
{
aFirstChild = (nsnull != mLines) ? mLines->mFirstChild : nsnull;
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::NextChild(const nsIFrame* aChild, nsIFrame*& aNextChild) const
{
NS_PRECONDITION(aChild != nsnull, "null pointer");
aChild->GetNextSibling(aNextChild);
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::PrevChild(const nsIFrame* aChild, nsIFrame*& aPrevChild) const
{
NS_PRECONDITION(aChild != nsnull, "null pointer");
if ((nsnull != mLines) && (mLines->mFirstChild != aChild)) {
nsIFrame* frame = mLines->mFirstChild;
while (nsnull != frame) {
nsIFrame* nextFrame;
frame->GetNextSibling(nextFrame);
if (nextFrame == aChild) {
aPrevChild = frame;
return NS_OK;
}
frame = nextFrame;
}
}
aPrevChild = nsnull;
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::LastChild(nsIFrame*& aLastChild) const
{
LineData* line = LastLine(mLines);
if (nsnull != line) {
aLastChild = line->LastChild();
return NS_OK;
}
aLastChild = nsnull;
return NS_OK;
}
//////////////////////////////////////////////////////////////////////
// Reflow methods
#if XXX
PRBool
nsBlockFrame::GetLastContentIsComplete() const
{
PRBool result = PR_TRUE;
LineData* line = LastLine(mLines);
if (nsnull != line) {
return line->GetLastContentIsComplete();
}
return result;
}
PRInt32
nsBlockFrame::GetFirstContentOffset() const
{
PRInt32 result = 0;
LineData* line = mLines;
if (nsnull != line) {
line->mFirstChild->GetContentIndex(result);
}
return result;
}
PRInt32
nsBlockFrame::GetLastContentOffset() const
{
PRInt32 result = 0;
LineData* line = LastNonEmptyLine(mLines);
if (nsnull != line) {
line->LastChild()->GetContentIndex(result);
}
return result;
}
#endif
NS_IMETHODIMP
nsBlockFrame::ReflowAround(nsIPresContext& aPresContext,
nsISpaceManager* aSpaceManager,
nsReflowMetrics& aMetrics,
const nsReflowState& aReflowState,
nsRect& aDesiredRect,
nsReflowStatus& aStatus)
{
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("enter nsBlockFrame::Reflow: maxSize=%d,%d reason=%d [%d,%d,%c]",
aReflowState.maxSize.width,
aReflowState.maxSize.height,
aReflowState.reason,
GetFirstContentOffset(), GetLastContentOffset(),
GetLastContentIsComplete()?'T':'F'));
// If this is the initial reflow, generate any synthetic content
// that needs generating.
if (eReflowReason_Initial == aReflowState.reason) {
NS_ASSERTION(0 != (NS_FRAME_FIRST_REFLOW & mState), "bad mState");
}
else {
NS_ASSERTION(0 == (NS_FRAME_FIRST_REFLOW & mState), "bad mState");
}
// Replace parent provided reflow state with our own significantly
// more extensive version.
nsBlockReflowState state(&aPresContext, aSpaceManager,
this, mStyleContext,
aReflowState, aMetrics,
PRBool(nsnull != aMetrics.maxElementSize));
nsresult rv = NS_OK;
if (eReflowReason_Initial == state.reason) {
if (!DrainOverflowLines()) {
rv = InitialReflow(state);
}
else {
rv = ResizeReflow(state);
}
mState &= ~NS_FRAME_FIRST_REFLOW;
}
else if (eReflowReason_Incremental == state.reason) {
#if XXX
// We can have an overflow here if our parent doesn't bother to
// continue us
DrainOverflowLines();
#endif
nsIFrame* target;
state.reflowCommand->GetTarget(target);
if (this == target) {
nsIReflowCommand::ReflowType type;
state.reflowCommand->GetType(type);
switch (type) {
case nsIReflowCommand::FrameAppended:
rv = FrameAppendedReflow(state);
break;
case nsIReflowCommand::FrameInserted:
rv = FrameInsertedReflow(state);
break;
case nsIReflowCommand::FrameDeleted:
rv = FrameDeletedReflow(state);
break;
default:
NS_NOTYETIMPLEMENTED("XXX");
}
}
else {
// Get next frame in reflow command chain
state.reflowCommand->GetNext(state.mInlineLayout.mNextRCFrame);
// Now do the reflow
rv = ChildIncrementalReflow(state);
}
}
else if (eReflowReason_Resize == state.reason) {
DrainOverflowLines();
rv = ResizeReflow(state);
}
#ifdef DTPF
// Update content offsets; we don't track them normally but we do
// need them because we are a pseudo-frame
if (nsnull != mLines) {
nsIFrame* firstChild = mLines->mFirstChild;
if (nsnull != firstChild) {
firstChild->GetContentIndex(mFirstContentOffset);
}
LineData* line = mLines;
while (nsnull != line->mNext) {
NS_ASSERTION(line->mChildCount > 0, "empty line left on list");
line = line->mNext;
}
line->LastChild()->GetContentIndex(mLastContentOffset);
mLastContentIsComplete = line->GetLastContentIsComplete();
}
if (state.mBlockIsPseudo) {
// Tell our parent to update it's offsets because our offsets have
// changed.
nsContainerFrame* parent = (nsContainerFrame*) mGeometricParent;
parent->PropagateContentOffsets(this, mFirstContentOffset,
mLastContentOffset,
mLastContentIsComplete);
}
#endif
// Compute our final size
ComputeFinalSize(state, aMetrics, aDesiredRect);
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
VerifyChildCount(mLines);
VerifyLines(mLines);
}
#endif
aStatus = rv;
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("exit nsBlockFrame::Reflow: size=%d,%d rv=%x [%d,%d,%c]",
aMetrics.width, aMetrics.height, rv,
GetFirstContentOffset(), GetLastContentOffset(),
GetLastContentIsComplete()?'T':'F'));
return NS_OK;
}
nsresult
nsBlockFrame::ProcessInitialReflow(nsIPresContext* aPresContext)
{
// XXX ick; html stuff. pfuui.
if (nsnull == mPrevInFlow) {
const nsStyleDisplay* display = (const nsStyleDisplay*)
mStyleContext->GetStyleData(eStyleStruct_Display);
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::ProcessInitialReflow: display=%d",
display->mDisplay));
if (NS_STYLE_DISPLAY_LIST_ITEM == display->mDisplay) {
// This container is a list-item container. Therefore it needs a
// bullet content object. However, it might have already had the
// bullet crated. Check to see if the first child of the
// container is a synthetic object; if it is, then don't make a
// bullet (XXX what a hack!).
nsIContent* firstContent;
mContent->ChildAt(0, firstContent);
if (nsnull != firstContent) {
PRBool is;
firstContent->IsSynthetic(is);
NS_RELEASE(firstContent);
if (is) {
return NS_OK;
}
}
nsIHTMLContent* bullet;
nsresult rv = NS_NewHTMLBullet(&bullet);
if (NS_OK != rv) {
return rv;
}
// Insert the bullet. Do not allow an incremental reflow operation
// to occur.
mContent->InsertChildAt(bullet, 0, PR_FALSE);
// If the frame has already been initialized, then we need to create a frame
// for the bullet and insert it into the line list
if (mHasBeenInitialized) {
nsIStyleContext* kidSC = aPresContext->ResolveStyleContextFor(bullet, this);
nsIFrame* bulletFrame;
NS_NewBulletFrame(bullet, this, bulletFrame);
bulletFrame->SetStyleContext(aPresContext, kidSC);
NS_RELEASE(kidSC);
// Insert the bullet frame
InsertNewFrame(this, bulletFrame, nsnull);
}
NS_RELEASE(bullet);
}
}
return NS_OK;
}
#if XXX
// XXX It should be impossible to write this code because we use
// methods on nsContainerFrame that we have no right using.
// XXX can't work: our parent can be an nsContainerFrame -or- an
// nsBlockFrame; we can't tell them apart and yet the need to be
// updated when we are a pseudo-frame
void
nsBlockFrame::PropagateContentOffsets()
{
NS_PRECONDITION(IsPseudoFrame(), "not a pseudo frame");
nsIFrame* parent = mGeometricParent;
if (nsnull != parent) {
// If we're the first child frame then update our parent's content offset
nsIFrame* firstChild;
parent->FirstChild(firstChild);
if (firstChild == this) {
parent->SetFirstContentOffset(GetFirstContentOffset());
}
// If we're the last child frame then update our parent's content offset
if (nsnull == mNextSibling) {
parent->SetLastContentOffset(GetLastContentOffset());
parent->SetLastContentIsComplete(GetLastContentIsComplete());
}
// If the parent is being used as a pseudo frame then we need to propagate
// the content offsets upwards to its parent frame
if (parent->IsPseudoFrame()) {
parent->PropagateContentOffsets();
}
}
}
#endif
void
nsBlockFrame::ComputeFinalSize(nsBlockReflowState& aState,
nsReflowMetrics& aMetrics,
nsRect& aDesiredRect)
{
aDesiredRect.x = 0;
aDesiredRect.y = 0;
// Special check for zero sized content: If our content is zero
// sized then we collapse into nothingness.
if ((0 == aState.mKidXMost - aState.mBorderPadding.left) &&
(0 == aState.mY - aState.mBorderPadding.top)) {
aDesiredRect.width = 0;
aDesiredRect.height = 0;
aMetrics.posBottomMargin = 0;
}
else {
aDesiredRect.width = aState.mKidXMost + aState.mBorderPadding.right;
if (!aState.mUnconstrainedWidth) {
// Make sure we're at least as wide as the max size we were given
nscoord mw = aState.maxSize.width/* + aState.mBulletPaddingXXX*/;
if (aDesiredRect.width < mw) {
aDesiredRect.width = mw;
}
}
if (0 != aState.mBorderPadding.bottom) {
aState.mY += aState.mBorderPadding.bottom;
aMetrics.posBottomMargin = 0;
}
else {
aMetrics.posBottomMargin = aState.mPrevBottomMargin;
}
aDesiredRect.height = aState.mY;
if (!aState.mBlockIsPseudo) {
// Clamp the desired rect height when style height applies
PRIntn ss = aState.mStyleSizeFlags;
if (0 != (ss & NS_SIZE_HAS_HEIGHT)) {
aDesiredRect.height = aState.mBorderPadding.top +
aState.mStyleSize.height + aState.mBorderPadding.bottom;
}
}
}
aMetrics.width = aDesiredRect.width;
aMetrics.height = aDesiredRect.height;
aMetrics.ascent = aMetrics.height;
aMetrics.descent = 0;
if (aState.mComputeMaxElementSize) {
*aMetrics.maxElementSize = aState.mMaxElementSize;
// Add in our border and padding to the max-element-size so that
// we don't shrink too far.
aMetrics.maxElementSize->width += aState.mBorderPadding.left +
aState.mBorderPadding.right;
aMetrics.maxElementSize->height += aState.mBorderPadding.top +
aState.mBorderPadding.bottom;
// Factor in any left and right floaters as well
LineData* line = mLines;
PRInt32 maxLeft = 0, maxRight = 0;
while (nsnull != line) {
if (nsnull != line->mFloaters) {
nsRect r;
nsMargin floaterMargin;
PRInt32 leftSum = 0, rightSum = 0;
PRInt32 n = line->mFloaters->Count();
for (PRInt32 i = 0; i < n; i++) {
nsPlaceholderFrame* placeholder = (nsPlaceholderFrame*)
line->mFloaters->ElementAt(i);
nsIFrame* floater = placeholder->GetAnchoredItem();
floater->GetRect(r);
const nsStyleDisplay* floaterDisplay;
const nsStyleSpacing* floaterSpacing;
floater->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)floaterDisplay);
floater->GetStyleData(eStyleStruct_Spacing,
(const nsStyleStruct*&)floaterSpacing);
floaterSpacing->CalcMarginFor(floater, floaterMargin);
nscoord width = r.width + floaterMargin.left + floaterMargin.right;
switch (floaterDisplay->mFloats) {
default:
NS_NOTYETIMPLEMENTED("Unsupported floater type");
// FALL THROUGH
case NS_STYLE_FLOAT_LEFT:
leftSum += width;
break;
case NS_STYLE_FLOAT_RIGHT:
rightSum += width;
break;
}
}
if (leftSum > maxLeft) maxLeft = leftSum;
if (rightSum > maxRight) maxRight = rightSum;
}
line = line->mNext;
}
aMetrics.maxElementSize->width += maxLeft + maxRight;
}
NS_ASSERTION(aDesiredRect.width < 1000000, "whoops");
}
nsresult
nsBlockFrame::AppendNewFrames(nsIPresContext* aPresContext, nsIFrame* aNewFrame)
{
// Get our last line and then get its last child
nsIFrame* lastFrame;
LineData* lastLine = LastLine(mLines);
if (nsnull != lastLine) {
lastFrame = lastLine->LastChild();
} else {
lastFrame = nsnull;
}
// Add the new frames to the sibling list
if (nsnull != lastFrame) {
lastFrame->SetNextSibling(aNewFrame);
}
// Make sure that new inlines go onto the end of the lastLine when
// the lastLine is mapping inline frames.
PRInt32 pendingInlines = 0;
if (nsnull != lastLine) {
if (!lastLine->IsBlock()) {
pendingInlines = 1;
}
}
// Now create some lines for the new frames
nsIFrame* prevFrame = lastFrame;
nsresult rv;
for (nsIFrame* frame = aNewFrame; nsnull != frame; frame->GetNextSibling(frame)) {
// See if the child is a block or non-block
const nsStyleDisplay* kidDisplay;
rv = frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&) kidDisplay);
if (NS_OK != rv) {
return rv;
}
const nsStylePosition* kidPosition;
rv = frame->GetStyleData(eStyleStruct_Position,
(const nsStyleStruct*&) kidPosition);
if (NS_OK != rv) {
return rv;
}
PRBool isBlock =
nsLineLayout::TreatFrameAsBlock(kidDisplay, kidPosition);
// See if the element wants to be floated
if (NS_STYLE_FLOAT_NONE != kidDisplay->mFloats) {
// Create a placeholder frame that will serve as the anchor point.
nsPlaceholderFrame* placeholder =
CreatePlaceholderFrame(aPresContext, frame);
// Remove the floated element from the flow, and replace it with the
// placeholder frame
if (nsnull != prevFrame) {
prevFrame->SetNextSibling(placeholder);
}
nsIFrame* nextSibling;
frame->GetNextSibling(nextSibling);
placeholder->SetNextSibling(nextSibling);
frame->SetNextSibling(nsnull);
// If the floated element can contain children then wrap it in a
// BODY frame before floating it
nsIContent* content;
PRBool isContainer;
frame->GetContent(content);
content->CanContainChildren(isContainer);
if (isContainer) {
// Wrap the floated element in a BODY frame.
nsIFrame* wrapperFrame;
NS_NewBodyFrame(content, this, wrapperFrame);
// The body wrapper frame gets the original style context, and the floated
// frame gets a pseudo style context
nsIStyleContext* kidStyle;
frame->GetStyleContext(aPresContext, kidStyle);
wrapperFrame->SetStyleContext(aPresContext, kidStyle);
NS_RELEASE(kidStyle);
nsIStyleContext* pseudoStyle;
pseudoStyle = aPresContext->ResolvePseudoStyleContextFor(nsHTMLAtoms::columnPseudo,
wrapperFrame);
frame->SetStyleContext(aPresContext, pseudoStyle);
NS_RELEASE(pseudoStyle);
// Init the body frame
wrapperFrame->Init(*aPresContext, frame);
// Bind the wrapper frame to the placeholder
placeholder->SetAnchoredItem(wrapperFrame);
}
NS_RELEASE(content);
// The placeholder frame is always inline
frame = placeholder;
isBlock = PR_FALSE;
}
// If the child is an inline then add it to the lastLine (if it's
// an inline line, otherwise make a new line). If the child is a
// block then make a new line and put the child in that line.
if (isBlock) {
// If the previous line has pending inline data to be reflowed,
// do so now.
if (0 != pendingInlines) {
// Set this to true in case we don't end up reflowing all of the
// frames on the line (because they end up being pushed).
lastLine->SetLastContentIsComplete();
lastLine->MarkDirty();
pendingInlines = 0;
}
// Create a line for the block
LineData* line = new LineData(frame, 1,
(LINE_IS_BLOCK |
LINE_LAST_CONTENT_IS_COMPLETE));
if (nsnull == line) {
return NS_ERROR_OUT_OF_MEMORY;
}
if (nsnull == lastLine) {
mLines = line;
}
else {
lastLine->mNext = line;
}
lastLine = line;
}
else {
// Queue up the inlines for reflow later on
if (0 == pendingInlines) {
LineData* line = new LineData(frame, 0, 0);
if (nsnull == line) {
return NS_ERROR_OUT_OF_MEMORY;
}
if (nsnull == lastLine) {
mLines = line;
}
else {
lastLine->mNext = line;
}
lastLine = line;
}
lastLine->mChildCount++;
pendingInlines++;
}
// Remember the previous frame
prevFrame = frame;
}
if (0 != pendingInlines) {
// Set this to true in case we don't end up reflowing all of the
// frames on the line (because they end up being pushed).
lastLine->SetLastContentIsComplete();
lastLine->MarkDirty();
}
return NS_OK;
}
nsresult
nsBlockFrame::InitialReflow(nsBlockReflowState& aState)
{
// Create synthetic content (XXX a hack)
nsresult rv = ProcessInitialReflow(aState.mPresContext);
if (NS_OK != rv) {
return rv;
}
// Generate text-run information
rv = FindTextRuns(aState);
if (NS_OK != rv) {
return rv;
}
// Reflow everything
aState.GetAvailableSpace();
return ResizeReflow(aState);
}
nsresult
nsBlockFrame::FrameAppendedReflow(nsBlockReflowState& aState)
{
nsresult rv = NS_OK;
// Get the first of the newly appended frames
nsIFrame* firstAppendedFrame;
aState.reflowCommand->GetChildFrame(firstAppendedFrame);
// Add the new frames to the child list, and create new lines. Each
// impacted line will be marked dirty
AppendNewFrames(aState.mPresContext, firstAppendedFrame);
// Generate text-run information
rv = FindTextRuns(aState);
if (NS_OK != rv) {
return rv;
}
// Recover our reflow state. First find the lastCleanLine and the
// firstDirtyLine which follows it. While we are looking, compute
// the maximum xmost of each line.
LineData* firstDirtyLine = mLines;
LineData* lastCleanLine = nsnull;
LineData* lastYLine = nsnull;
while (nsnull != firstDirtyLine) {
if (firstDirtyLine->IsDirty()) {
break;
}
nscoord xmost = firstDirtyLine->mBounds.XMost();
NS_ASSERTION(xmost < 1000000, "bad line width");
if (xmost > aState.mKidXMost) {
aState.mKidXMost = xmost;
}
if (firstDirtyLine->mBounds.height > 0) {
lastYLine = firstDirtyLine;
}
lastCleanLine = firstDirtyLine;
firstDirtyLine = firstDirtyLine->mNext;
}
// Recover the starting Y coordinate and the previous bottom margin
// value.
if (nsnull != lastCleanLine) {
// If the lastCleanLine is not a block but instead is a zero
// height inline line then we need to backup to either a non-zero
// height line.
aState.mPrevBottomMargin = 0;
if (nsnull != lastYLine) {
aState.mPrevBottomMargin = lastYLine->mInnerBottomMargin +
lastYLine->mOuterBottomMargin;
}
// Start the Y coordinate after the last clean line.
aState.mY = lastCleanLine->mBounds.YMost();
// Add in the outer margin to the Y coordinate (the inner margin
// will be present in the lastCleanLine's YMost so don't add it
// in again)
aState.mY += lastCleanLine->mOuterBottomMargin;
// XXX I'm not sure about the previous statement and floaters!!!
// Place any floaters the line has
if (nsnull != lastCleanLine->mFloaters) {
aState.mCurrentLine = lastCleanLine;
aState.PlaceFloaters(lastCleanLine->mFloaters);
}
}
aState.GetAvailableSpace();
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockReflowState::FrameAppendedReflow: y=%d firstDirtyLine=%p",
aState.mY, firstDirtyLine));
// Reflow lines from there forward
aState.mPrevLine = lastCleanLine;
return ReflowLinesAt(aState, firstDirtyLine);
}
// XXX keep the text-run data in the first-in-flow of the block
nsresult
nsBlockFrame::FindTextRuns(nsBlockReflowState& aState)
{
// Destroy old run information first
nsTextRun::DeleteTextRuns(mTextRuns);
mTextRuns = nsnull;
aState.mLineLayout.ResetTextRuns();
// Ask each child that implements nsIInlineReflow to find its text runs
LineData* line = mLines;
while (nsnull != line) {
if (!line->IsBlock()) {
nsIFrame* frame = line->mFirstChild;
PRInt32 n = line->mChildCount;
while (--n >= 0) {
nsIInlineReflow* inlineReflow;
if (NS_OK == frame->QueryInterface(kIInlineReflowIID,
(void**)&inlineReflow)) {
nsresult rv = inlineReflow->FindTextRuns(aState.mLineLayout,
aState.reflowCommand);
if (NS_OK != rv) {
return rv;
}
}
else {
// A frame that doesn't implement nsIInlineReflow isn't text
// therefore it will end an open text run.
aState.mLineLayout.EndTextRun();
}
frame->GetNextSibling(frame);
}
}
else {
// A frame that doesn't implement nsIInlineReflow isn't text
// therefore it will end an open text run.
aState.mLineLayout.EndTextRun();
}
line = line->mNext;
}
aState.mLineLayout.EndTextRun();
// Now take the text-runs away from the line layout engine.
mTextRuns = aState.mLineLayout.TakeTextRuns();
return NS_OK;
}
nsresult
nsBlockFrame::FrameInsertedReflow(nsBlockReflowState& aState)
{
LineData* line = mLines;
while (nsnull != line->mNext) {
if (line->IsDirty()) {
break;
}
line = line->mNext;
}
NS_ASSERTION(nsnull != line, "bad inserted reflow");
//XXX return ReflowDirtyLines(aState, line);
// XXX Correct implementation: reflow the dirty lines only; all
// other lines can be moved; recover state before first dirty line.
// XXX temporary
aState.GetAvailableSpace();
aState.mPrevLine = nsnull;
return ReflowLinesAt(aState, mLines);
}
nsresult
nsBlockFrame::FrameDeletedReflow(nsBlockReflowState& aState)
{
if (nsnull == mLines) {
return NS_OK;
}
LineData* line = mLines;
while (nsnull != line->mNext) {
if (line->IsDirty()) {
break;
}
line = line->mNext;
}
NS_ASSERTION(nsnull != line, "bad inserted reflow");
//XXX return ReflowDirtyLines(aState, line);
// XXX Correct implementation: reflow the dirty lines only; all
// other lines can be moved; recover state before first dirty line.
// XXX temporary
aState.GetAvailableSpace();
aState.mPrevLine = nsnull;
return ReflowLinesAt(aState, mLines);
}
// XXX Todo: some incremental reflows are passing through this block
// and into a child block; those cannot impact our text-runs. In that
// case skip the FindTextRuns work.
// XXX easy optimizations: find the line that contains the next child
// in the reflow-command path and mark it dirty and only reflow it;
// recover state before it, slide lines down after it.
nsresult
nsBlockFrame::ChildIncrementalReflow(nsBlockReflowState& aState)
{
// Generate text-run information; this will also "fluff out" any
// inline children's frame tree.
nsresult rv = FindTextRuns(aState);
if (NS_OK != rv) {
return rv;
}
// XXX temporary
aState.GetAvailableSpace();
aState.mPrevLine = nsnull;
return ReflowLinesAt(aState, mLines);
}
nsresult
nsBlockFrame::ResizeReflow(nsBlockReflowState& aState)
{
// Mark everything dirty
LineData* line = mLines;
while (nsnull != line) {
line->MarkDirty();
line = line->mNext;
}
// Reflow all of our lines
aState.GetAvailableSpace();
aState.mPrevLine = nsnull;
return ReflowLinesAt(aState, mLines);
}
nsresult
nsBlockFrame::ReflowLinesAt(nsBlockReflowState& aState, LineData* aLine)
{
#if XXX
if ((nsnull != mRunInFloaters) && (aLine == mLines)) {
aState.PlaceBelowCurrentLineFloaters(mRunInFloaters);
}
#endif
// Reflow the lines that are already ours
while (nsnull != aLine) {
nsInlineReflowStatus rs;
if (!ReflowLine(aState, aLine, rs)) {
if (NS_IS_REFLOW_ERROR(rs)) {
return nsresult(rs);
}
return NS_FRAME_NOT_COMPLETE;
}
aState.mLineLayout.NextLine();
aState.mPrevLine = aLine;
aLine = aLine->mNext;
}
// Pull data from a next-in-flow if we can
while (nsnull != aState.mNextInFlow) {
// Grab first line from our next-in-flow
aLine = aState.mNextInFlow->mLines;
if (nsnull == aLine) {
aState.mNextInFlow = (nsBlockFrame*) aState.mNextInFlow->mNextInFlow;
continue;
}
// XXX See if the line is not dirty; if it's not maybe we can
// avoid the pullup if it can't fit?
aState.mNextInFlow->mLines = aLine->mNext;
aLine->mNext = nsnull;
if (0 == aLine->mChildCount) {
// The line is empty. Try the next one.
NS_ASSERTION(nsnull == aLine->mChildCount, "bad empty line");
aLine->mNext = aState.mFreeList;
aState.mFreeList = aLine;
continue;
}
// Make the children in the line ours.
nsIFrame* frame = aLine->mFirstChild;
nsIFrame* lastFrame = nsnull;
PRInt32 n = aLine->mChildCount;
while (--n >= 0) {
nsIFrame* geometricParent;
nsIFrame* contentParent;
frame->GetGeometricParent(geometricParent);
frame->GetContentParent(contentParent);
if (contentParent == geometricParent) {
frame->SetContentParent(this);
}
frame->SetGeometricParent(this);
lastFrame = frame;
frame->GetNextSibling(frame);
}
lastFrame->SetNextSibling(nsnull);
#ifdef NS_DEBUG
LastChild(lastFrame);
NS_ASSERTION(lastFrame == aState.mPrevChild, "bad aState.mPrevChild");
#endif
// Add line to our line list
if (nsnull == aState.mPrevLine) {
NS_ASSERTION(nsnull == mLines, "bad aState.mPrevLine");
mLines = aLine;
}
else {
NS_ASSERTION(nsnull == aState.mPrevLine->mNext, "bad aState.mPrevLine");
aState.mPrevLine->mNext = aLine;
aState.mPrevChild->SetNextSibling(aLine->mFirstChild);
}
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
VerifyChildCount(mLines);
}
#endif
// Now reflow it and any lines that it makes during it's reflow.
while (nsnull != aLine) {
nsInlineReflowStatus rs;
if (!ReflowLine(aState, aLine, rs)) {
if (NS_IS_REFLOW_ERROR(rs)) {
return nsresult(rs);
}
return NS_FRAME_NOT_COMPLETE;
}
aState.mLineLayout.NextLine();
aState.mPrevLine = aLine;
aLine = aLine->mNext;
}
}
return NS_FRAME_COMPLETE;
}
/**
* Reflow a line. The line will either contain a single block frame
* or contain 1 or more inline frames.
*/
PRBool
nsBlockFrame::ReflowLine(nsBlockReflowState& aState,
LineData* aLine,
nsInlineReflowStatus& aReflowResult)
{
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::ReflowLine: line=%p", aLine));
PRBool keepGoing = PR_FALSE;
nsBlockFrame* nextInFlow;
aState.mCurrentLine = aLine;
aState.mInlineLayoutPrepared = PR_FALSE;
aLine->ClearDirty();
aLine->SetNeedDidReflow();
// XXX temporary SLOW code
if (nsnull != aLine->mFloaters) {
delete aLine->mFloaters;
aLine->mFloaters = nsnull;
}
// Reflow mapped frames in the line
PRInt32 n = aLine->mChildCount;
if (0 != n) {
nsIFrame* frame = aLine->mFirstChild;
#ifdef NS_DEBUG
const nsStyleDisplay* display;
frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&) display);
const nsStylePosition* position;
frame->GetStyleData(eStyleStruct_Position,
(const nsStyleStruct*&) position);
PRBool isBlock = nsLineLayout::TreatFrameAsBlock(display, position);
NS_ASSERTION(isBlock == aLine->IsBlock(), "bad line isBlock");
#endif
if (aLine->IsBlock()) {
keepGoing = ReflowBlockFrame(aState, aLine, frame, aReflowResult);
return keepGoing;
}
else {
while (--n >= 0) {
keepGoing = ReflowInlineFrame(aState, aLine, frame, aReflowResult);
if (!keepGoing) {
// It is possible that one or more of next lines are empty
// (because of DeleteNextInFlowsFor). If so, delete them now
// in case we are finished.
LineData* nextLine = aLine->mNext;
while ((nsnull != nextLine) && (0 == nextLine->mChildCount)) {
// Discard empty lines immediately. Empty lines can happen
// here because of DeleteNextInFlowsFor not being able to
// delete lines.
aLine->mNext = nextLine->mNext;
NS_ASSERTION(nsnull == nextLine->mFirstChild, "bad empty line");
nextLine->mNext = aState.mFreeList;
aState.mFreeList = nextLine;
nextLine = aLine->mNext;
}
goto done;
}
frame->GetNextSibling(frame);
}
}
}
// Pull frames from the next line until we can't
while (nsnull != aLine->mNext) {
keepGoing = PullFrame(aState, aLine, &aLine->mNext,
PR_FALSE, aReflowResult);
if (!keepGoing) {
goto done;
}
}
// Pull frames from the next-in-flow(s) until we can't
nextInFlow = aState.mNextInFlow;
while (nsnull != nextInFlow) {
LineData* line = nextInFlow->mLines;
if (nsnull == line) {
nextInFlow = (nsBlockFrame*) nextInFlow->mNextInFlow;
aState.mNextInFlow = nextInFlow;
continue;
}
keepGoing = PullFrame(aState, aLine, &nextInFlow->mLines,
PR_TRUE, aReflowResult);
if (!keepGoing) {
goto done;
}
}
keepGoing = PR_TRUE;
done:;
if (!aLine->IsBlock()) {
return PlaceLine(aState, aLine, aReflowResult);
}
return keepGoing;
}
PRBool
nsBlockFrame::ReflowBlockFrame(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
nsInlineReflowStatus& aReflowResult)
{
NS_FRAME_TRACE(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockFrame::ReflowBlockFrame: line=%p frame=%p y=%d",
aLine, aFrame, aState.mY));
NS_ASSERTION(nsnull != aState.mSpaceManager, "null ptr");
// Get run-around interface if frame supports it
nsIRunaround* runAround = nsnull;
aFrame->QueryInterface(kIRunaroundIID, (void**)&runAround);
// Get the child margins
nsMargin childMargin;
const nsStyleSpacing* childSpacing;
aFrame->GetStyleData(eStyleStruct_Spacing,
(const nsStyleStruct*&)childSpacing);
childSpacing->CalcMarginFor(aFrame, childMargin);
const nsStyleDisplay* childDisplay;
aFrame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)childDisplay);
// XXX Negative margins are set to zero; we could do better SOMEDAY
// Compute the top margin to apply to the child block
nscoord totalTopMargin = 0;
nscoord topMargin = 0;
nscoord childTopMargin = 0;
nscoord childBottomMargin = 0;
if (childSpacing->mMargin.GetTopUnit() <= eStyleUnit_Auto) {
// Provide an ebina style margin of 1 blank line before this block
// for most block elements.
// XXX need a complete list of the ones that he does this for
if (NS_STYLE_DISPLAY_LIST_ITEM != childDisplay->mDisplay) {
if (IsPseudoFrame() && (aState.mY == aState.mBorderPadding.top)) {
childTopMargin = 0;
}
else {
const nsFont& defaultFont = aState.mPresContext->GetDefaultFont();
nsIFontMetrics* fm = aState.mPresContext->GetMetricsFor(defaultFont);
fm->GetHeight(childTopMargin);
NS_RELEASE(fm);
}
}
}
else {
childTopMargin = childMargin.top;
if (childTopMargin < 0) childTopMargin = 0;
}
if (aState.mY == aState.mBorderPadding.top) {
// Since this is our first child we need to collapse its top
// margin with our top margin.
if (0 != aState.mBorderPadding.top) {
// Since we have a border/padding value the childs top margin
// does not collapse with our top margin.
topMargin = childTopMargin;
}
else {
nscoord outerTopMargin = aState.mOuterTopMargin;
if (childTopMargin > outerTopMargin) {
topMargin = childTopMargin - outerTopMargin;
totalTopMargin = childTopMargin;
}
else {
totalTopMargin = outerTopMargin;
}
}
}
else {
// For other children we collapse the margins between them.
if (childTopMargin > aState.mPrevBottomMargin) {
topMargin = childTopMargin - aState.mPrevBottomMargin;
totalTopMargin = childTopMargin;
}
else {
totalTopMargin = aState.mPrevBottomMargin;
}
}
if (childSpacing->mMargin.GetBottomUnit() > eStyleUnit_Auto) {
childBottomMargin = childMargin.bottom;
if (childBottomMargin < 0) childBottomMargin = 0;
}
// Compute the available space that the child block can reflow into
// and the starting x,y coordinate.
nscoord x;
if (nsnull == runAround) {
// When there is no run-around API the coordinates must include
// any impact by floaters.
x = aState.mCurrentBand.availSpace.x;
}
else {
// When the child does implement the run-around API it will deal
// with any floater impact itself.
x = aState.mX;
}
x += childMargin.left + aState.mBulletPadding;
nscoord y = aState.mY + topMargin;
nsSize availSize;
if (aState.mUnconstrainedWidth) {
availSize.width = NS_UNCONSTRAINEDSIZE;
}
else {
availSize.width = aState.mInnerSize.width -
(childMargin.left + childMargin.right + aState.mBulletPadding);
}
if (aState.mUnconstrainedHeight) {
availSize.height = NS_UNCONSTRAINEDSIZE;
}
else {
availSize.height = aState.mBottomEdge - (y + childBottomMargin);
}
if (NS_STYLE_DISPLAY_LIST_ITEM == childDisplay->mDisplay) {
// Special handling for list-item children that have outside
// bullets.
const nsStyleList* sl;
aFrame->GetStyleData(eStyleStruct_List,
(const nsStyleStruct*&) sl);
if (NS_STYLE_LIST_STYLE_POSITION_OUTSIDE == sl->mListStylePosition) {
// Slide child list item so that it's just past our border; it
// will use our padding area to place its bullet.
x -= aState.mLeftPadding;
availSize.width += aState.mLeftPadding;
}
}
aFrame->WillReflow(*aState.mPresContext);
aFrame->MoveTo(x, y);
NS_FRAME_TRACE(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockFrame::ReflowBlockFrame: xy={%d,%d} availSize={%d,%d}",
x, y, availSize.width, availSize.height));
// Determine the reason for the reflow
nsReflowReason reason = eReflowReason_Resize;
nsFrameState state;
aFrame->GetFrameState(state);
if (NS_FRAME_FIRST_REFLOW & state) {
reason = eReflowReason_Initial;
}
else if (aState.mInlineLayout.mNextRCFrame == aFrame) {
reason = eReflowReason_Incremental;
// Make sure we only incrementally reflow once
aState.mInlineLayout.mNextRCFrame = nsnull;
}
// Reflow the block frame. Use the run-around API if possible;
// otherwise treat it as a rectangular lump and place it.
nsresult rv;
nsSize kidMaxElementSize;
nsReflowMetrics metrics(aState.mComputeMaxElementSize
? &kidMaxElementSize
: nsnull);
metrics.posTopMargin = totalTopMargin;
nsReflowStatus reflowStatus;
if (nsnull != runAround) {
// Reflow the block
nsReflowState reflowState(aFrame, aState, availSize);
reflowState.reason = reason;
nsRect r;
aState.mSpaceManager->Translate(x, y);
rv = runAround->ReflowAround(*aState.mPresContext, aState.mSpaceManager,
metrics, reflowState, r, reflowStatus);
aState.mSpaceManager->Translate(-x, -y);
metrics.width = r.width;
metrics.height = r.height;
metrics.ascent = r.height;
metrics.descent = 0;
}
else {
nsReflowState reflowState(aFrame, aState, availSize);
reflowState.reason = reason;
aState.mSpaceManager->Translate(x, y);
rv = aFrame->Reflow(*aState.mPresContext, metrics, reflowState,
reflowStatus);
aState.mSpaceManager->Translate(-x, -y);
}
// XXX we need to do this because blocks depend on it; we shouldn't expect
// the child frame to deal with it.
if (eReflowReason_Initial == reason) {
aFrame->GetFrameState(state);
aFrame->SetFrameState(state & ~NS_FRAME_FIRST_REFLOW);
}
if (NS_IS_REFLOW_ERROR(rv)) {
aReflowResult = nsInlineReflowStatus(rv);
return PR_FALSE;
}
if (NS_FRAME_IS_COMPLETE(reflowStatus)) {
nsIFrame* kidNextInFlow;
aFrame->GetNextInFlow(kidNextInFlow);
if (nsnull != kidNextInFlow) {
// Remove all of the childs next-in-flows. Make sure that we ask
// the right parent to do the removal (it's possible that the
// parent is not this because we are executing pullup code)
nsIFrame* parent;
aFrame->GetGeometricParent(parent);
((nsBlockFrame*)parent)->DeleteNextInFlowsFor(*aState.mPresContext, aFrame);
}
aLine->SetLastContentIsComplete();
aReflowResult = NS_FRAME_COMPLETE;
}
else {
aLine->ClearLastContentIsComplete();
aReflowResult = NS_FRAME_NOT_COMPLETE;
}
// If the block we just reflowed happens to end up being zero height
// then we do not let its margins take effect.
nscoord newY;
if (0 == metrics.height) {
// Leave aState.mPrevBottomMargin alone in this case so that it
// can carry forward to the next non-empty block.
newY = y = aState.mY;
aLine->mInnerBottomMargin = 0;
aLine->mOuterBottomMargin = 0;
}
else {
// Collapse the childs bottom margin with the grandchilds bottom
// margin.
if (childSpacing->mMargin.GetBottomUnit() <= eStyleUnit_Auto) {
// list-item's don't get bottom margins in ebina land
const nsStyleDisplay* childDisplay;
aFrame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)childDisplay);
if (NS_STYLE_DISPLAY_LIST_ITEM != childDisplay->mDisplay) {
const nsFont& defaultFont = aState.mPresContext->GetDefaultFont();
nsIFontMetrics* fm = aState.mPresContext->GetMetricsFor(defaultFont);
fm->GetHeight(childBottomMargin);
NS_RELEASE(fm);
}
}
else {
childBottomMargin -= metrics.posBottomMargin;
if (childBottomMargin < 0) childBottomMargin = 0;
}
// See if it fit
newY = y + metrics.height + childBottomMargin;
NS_FRAME_TRACE(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockFrame::ReflowBlockFrame: metrics={%d,%d} newY=%d maxY=%d",
metrics.width, metrics.height, newY, aState.mBottomEdge));
if ((mLines != aLine) && (newY > aState.mBottomEdge)) {
// None of the block fit. Push aLine and any other lines that follow
PushLines(aState);
aReflowResult = NS_INLINE_LINE_BREAK_BEFORE(reflowStatus);
return PR_FALSE;
}
aState.mPrevBottomMargin = metrics.posBottomMargin + childBottomMargin;
aLine->mInnerBottomMargin = metrics.posBottomMargin;
aLine->mOuterBottomMargin = childBottomMargin;
}
// Update max-element-size
if (aState.mComputeMaxElementSize) {
if (kidMaxElementSize.width > aState.mMaxElementSize.width) {
aState.mMaxElementSize.width = kidMaxElementSize.width;
}
if (kidMaxElementSize.height > aState.mMaxElementSize.height) {
aState.mMaxElementSize.height = kidMaxElementSize.height;
}
}
// Save away bounds before other adjustments
aLine->mBounds.x = x;
aLine->mBounds.y = y;
aLine->mBounds.width = metrics.width;
aLine->mBounds.height = metrics.height;
nscoord xmost = aLine->mBounds.XMost();
NS_ASSERTION(xmost < 1000000, "bad line width");
if (xmost > aState.mKidXMost) {
aState.mKidXMost = xmost;
}
// Place child then align it and relatively position it
aFrame->SetRect(aLine->mBounds);
aState.mY = newY;
if (!aState.mUnconstrainedWidth) {
nsCSSLayout::HorizontallyPlaceChildren(aState.mPresContext,
aState.mBlock,
aState.mTextAlign,
aState.mDirection,
aFrame, 1,
metrics.width,
availSize.width);
}
nsCSSLayout::RelativePositionChildren(aState.mPresContext,
aState.mBlock,
aFrame, 1);
aState.mPrevChild = aFrame;
// Refresh our available space in case a floater was placed by our
// child.
// XXX expensive!
aState.GetAvailableSpace();
if (NS_FRAME_IS_NOT_COMPLETE(reflowStatus)) {
// Some of the block fit. We need to have the block frame
// continued, so we make sure that it has a next-in-flow now.
nsIFrame* nextInFlow;
rv = aState.mInlineLayout.MaybeCreateNextInFlow(aFrame, nextInFlow);
if (NS_OK != rv) {
aReflowResult = nsInlineReflowStatus(rv);
return PR_FALSE;
}
if (nsnull != nextInFlow) {
// We made a next-in-flow for the block child frame. Create a
// line to map the block childs next-in-flow.
LineData* line = new LineData(nextInFlow, 1,
(LINE_IS_BLOCK |
LINE_LAST_CONTENT_IS_COMPLETE));
if (nsnull == line) {
aReflowResult = nsInlineReflowStatus(NS_ERROR_OUT_OF_MEMORY);
return PR_FALSE;
}
line->mNext = aLine->mNext;
aLine->mNext = line;
}
// Advance mPrevLine because we are keeping aLine (since some of
// the child block frame fit). Then push any remaining lines to
// our next-in-flow
aState.mPrevLine = aLine;
if (nsnull != aLine->mNext) {
PushLines(aState);
}
aReflowResult = NS_INLINE_LINE_BREAK_AFTER(reflowStatus);
return PR_FALSE;
}
return PR_TRUE;
}
PRBool
nsBlockFrame::ReflowInlineFrame(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
nsInlineReflowStatus& aReflowResult)
{
if (!aState.mInlineLayoutPrepared) {
nscoord x = aState.mCurrentBand.availSpace.x;
nscoord width = aState.mCurrentBand.availSpace.width;
if (0 != aState.mBulletPadding) {
if (x == aState.mX) {
x += aState.mBulletPadding;
width -= aState.mBulletPadding;
}
}
aState.mLineLayout.Prepare(x);
aState.mInlineLayout.Prepare(aState.mUnconstrainedWidth, aState.mNoWrap,
aState.mComputeMaxElementSize);
aState.mInlineLayout.SetReflowSpace(x, aState.mY,
width,
aState.mCurrentBand.availSpace.height);
// If we we are a list-item container and we are positioning the
// first child on the line (which is true when !mInlineLayoutPrepared)
// and it's the first line, and we are not a continuation, then
// set the mIsBullet flag for the line layout code.
if (aState.mLineLayout.mListPositionOutside &&
(0 == aState.mLineLayout.mLineNumber) &&
(nsnull == mPrevInFlow)) {
aState.mInlineLayout.mIsBullet = PR_TRUE;
aState.mInlineLayout.mHaveBullet = PR_TRUE;
}
aState.mInlineLayoutPrepared = PR_TRUE;
}
nsresult rv;
nsIFrame* nextInFlow;
aReflowResult = aState.mInlineLayout.ReflowAndPlaceFrame(aFrame);
aState.mInlineLayout.mIsBullet = PR_FALSE;
if (NS_IS_REFLOW_ERROR(aReflowResult)) {
return PR_FALSE;
}
PRBool lineWasComplete = aLine->GetLastContentIsComplete();
if (!NS_INLINE_IS_BREAK(aReflowResult)) {
aState.mPrevChild = aFrame;
if (NS_FRAME_IS_COMPLETE(aReflowResult)) {
aFrame->GetNextSibling(aFrame);
aLine->SetLastContentIsComplete();
return PR_TRUE;
}
// Create continuation frame (if necessary); add it to the end of
// the current line so that it can be pushed to the next line
// properly.
aLine->ClearLastContentIsComplete();
rv = aState.mInlineLayout.MaybeCreateNextInFlow(aFrame, nextInFlow);
if (NS_OK != rv) {
aReflowResult = nsInlineReflowStatus(rv);
return PR_FALSE;
}
if (nsnull != nextInFlow) {
// Add new child to the line
aLine->mChildCount++;
}
aFrame->GetNextSibling(aFrame);
}
else {
if (NS_INLINE_IS_BREAK_AFTER(aReflowResult)) {
aState.mPrevChild = aFrame;
if (NS_FRAME_IS_COMPLETE(aReflowResult)) {
aLine->SetLastContentIsComplete();
}
else {
// Create continuation frame (if necessary); add it to the end of
// the current line so that it can be pushed to the next line
// properly.
aLine->ClearLastContentIsComplete();
rv = aState.mInlineLayout.MaybeCreateNextInFlow(aFrame, nextInFlow);
if (NS_OK != rv) {
aReflowResult = nsInlineReflowStatus(rv);
return PR_FALSE;
}
if (nsnull != nextInFlow) {
// Add new child to the line
aLine->mChildCount++;
}
}
aFrame->GetNextSibling(aFrame);
}
else {
NS_ASSERTION(aLine->GetLastContentIsComplete(), "bad mState");
}
}
// Split line since we aren't going to keep going
rv = SplitLine(aState, aLine, aFrame, lineWasComplete);
if (NS_IS_REFLOW_ERROR(rv)) {
aReflowResult = nsInlineReflowStatus(rv);
}
return PR_FALSE;
}
// XXX alloc lines using free-list in aState
// XXX refactor this since the split NEVER has to deal with blocks
nsresult
nsBlockFrame::SplitLine(nsBlockReflowState& aState,
LineData* aLine,
nsIFrame* aFrame,
PRBool aLineWasComplete)
{
PRInt32 pushCount = aLine->mChildCount - aState.mInlineLayout.mFrameNum;
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::SplitLine: pushing %d frames",
pushCount));
if (0 != pushCount) {
NS_ASSERTION(nsnull != aFrame, "whoops");
LineData* to = aLine->mNext;
if (nsnull != to) {
// Only push into the next line if it's empty; otherwise we can
// end up pushing a frame which is continued into the same frame
// as it's continuation. This causes all sorts of bad side
// effects so we don't allow it.
if (to->mChildCount != 0) {
LineData* insertedLine = new LineData(aFrame, pushCount, 0);
aLine->mNext = insertedLine;
insertedLine->mNext = to;
to = insertedLine;
} else {
to->mFirstChild = aFrame;
to->mChildCount += pushCount;
}
} else {
to = new LineData(aFrame, pushCount, 0);
aLine->mNext = to;
}
if (nsnull == to) {
return NS_ERROR_OUT_OF_MEMORY;
}
to->SetLastContentIsComplete(aLineWasComplete);
aLine->mChildCount -= pushCount;
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
aLine->Verify();
}
#endif
NS_ASSERTION(0 != aLine->mChildCount, "bad push");
}
return NS_OK;
}
PRBool
nsBlockFrame::PullFrame(nsBlockReflowState& aState,
LineData* aLine,
LineData** aFromList,
PRBool aUpdateGeometricParent,
nsInlineReflowStatus& aReflowResult)
{
LineData* fromLine = *aFromList;
NS_ASSERTION(nsnull != fromLine, "bad line to pull from");
if (0 == fromLine->mChildCount) {
// Discard empty lines immediately. Empty lines can happen here
// because of DeleteChildsNextInFlow not being able to delete
// lines.
*aFromList = fromLine->mNext;
NS_ASSERTION(nsnull == fromLine->mFirstChild, "bad empty line");
fromLine->mNext = aState.mFreeList;
aState.mFreeList = fromLine;
return PR_TRUE;
}
// If our line is not empty and the child in aFromLine is a block
// then we cannot pull up the frame into this line.
if ((0 != aLine->mChildCount) && fromLine->IsBlock()) {
aReflowResult = NS_INLINE_LINE_BREAK_BEFORE(0);
return PR_FALSE;
}
// Take frame from fromLine
nsIFrame* frame = fromLine->mFirstChild;
if (0 == aLine->mChildCount++) {
aLine->mFirstChild = frame;
aLine->SetIsBlock(fromLine->IsBlock());
#ifdef NS_DEBUG
const nsStyleDisplay* display;
frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&) display);
const nsStylePosition* position;
frame->GetStyleData(eStyleStruct_Position,
(const nsStyleStruct*&) position);
PRBool isBlock = nsLineLayout::TreatFrameAsBlock(display, position);
NS_ASSERTION(isBlock == aLine->IsBlock(), "bad line isBlock");
#endif
}
if (0 != --fromLine->mChildCount) {
frame->GetNextSibling(fromLine->mFirstChild);
}
else {
// Free up the fromLine now that it's empty
*aFromList = fromLine->mNext;
fromLine->mFirstChild = nsnull;
fromLine->mNext = aState.mFreeList;
aState.mFreeList = fromLine;
}
// Change geometric parents
if (aUpdateGeometricParent) {
nsIFrame* geometricParent;
nsIFrame* contentParent;
frame->GetGeometricParent(geometricParent);
frame->GetContentParent(contentParent);
if (contentParent == geometricParent) {
frame->SetContentParent(this);
}
frame->SetGeometricParent(this);
// The frame is being pulled from a next-in-flow; therefore we
// need to add it to our sibling list.
if (nsnull != aState.mPrevChild) {
aState.mPrevChild->SetNextSibling(frame);
}
frame->SetNextSibling(nsnull);
}
// Reflow the frame
if (aLine->IsBlock()) {
return ReflowBlockFrame(aState, aLine, frame, aReflowResult);
}
else {
return ReflowInlineFrame(aState, aLine, frame, aReflowResult);
}
}
PRBool
nsBlockFrame::PlaceLine(nsBlockReflowState& aState,
LineData* aLine,
nsInlineReflowStatus aReflowStatus)
{
// Align the children. This also determines the actual height and
// width of the line.
aState.mInlineLayout.AlignFrames(aLine->mFirstChild, aLine->mChildCount,
aLine->mBounds);
// See if the line fit. If it doesn't we need to push it. Our first
// line will always fit.
// XXX This is a good place to check and see if we have
// below-current-line floaters, and if we do make sure that they fit
// too.
nscoord newY = aState.mY + aLine->mBounds.height;
NS_FRAME_TRACE(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockFrame::PlaceLine: newY=%d limit=%d lineHeight=%d",
newY, aState.mBottomEdge, aLine->mBounds.height));
if ((mLines != aLine) && (newY > aState.mBottomEdge)) {
// Push this line and all of it's children and anything else that
// follows to our next-in-flow
PushLines(aState);
return PR_FALSE;
}
if (aLine->mBounds.height > 0) {
aState.mPrevBottomMargin = 0;
}
// Update max-element-size
if (aState.mComputeMaxElementSize) {
nsSize& lineMaxElementSize = aState.mInlineLayout.mMaxElementSize;
if (lineMaxElementSize.width > aState.mMaxElementSize.width) {
aState.mMaxElementSize.width = lineMaxElementSize.width;
}
if (lineMaxElementSize.height > aState.mMaxElementSize.height) {
aState.mMaxElementSize.height = lineMaxElementSize.height;
}
}
nscoord xmost = aLine->mBounds.XMost();
NS_ASSERTION(xmost < 1000000, "bad line width");
if (xmost > aState.mKidXMost) {
aState.mKidXMost = xmost;
}
aState.mY = newY;
// Any below current line floaters to place?
if (0 != aState.mPendingFloaters.Count()) {
aState.PlaceFloaters(&aState.mPendingFloaters);
aState.mPendingFloaters.Clear();
// XXX Factor in the height of the floaters as well when considering
// whether the line fits.
// The default policy is that if there isn't room for the floaters then
// both the line and the floaters are pushed to the next-in-flow...
}
// Based on the last child we reflowed reflow status, we may need to
// clear past any floaters.
if (NS_INLINE_IS_BREAK_AFTER(aReflowStatus)) {
// Apply break to the line
PRUint8 breakType = NS_INLINE_GET_BREAK_TYPE(aReflowStatus);
switch (breakType) {
default:
break;
case NS_STYLE_CLEAR_LEFT:
case NS_STYLE_CLEAR_RIGHT:
case NS_STYLE_CLEAR_LEFT_AND_RIGHT:
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::PlaceLine: clearing floaters=%d",
breakType));
aState.ClearFloaters(breakType);
break;
}
// XXX page breaks, etc, need to be passed upwards too!
}
// if (aState.mY >= aState.mCurrentBand.availSpace.YMost()) {
// The current y coordinate is now past our available space
// rectangle. Get a new band of space.
aState.GetAvailableSpace();
// }
return PR_TRUE;
}
static nsresult
FindFloatersIn(nsIFrame* aFrame, nsVoidArray*& aArray)
{
const nsStyleDisplay* display;
aFrame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&) display);
if (NS_STYLE_FLOAT_NONE != display->mFloats) {
if (nsnull == aArray) {
aArray = new nsVoidArray();
if (nsnull == aArray) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
aArray->AppendElement(aFrame);
}
if (NS_STYLE_DISPLAY_INLINE == display->mDisplay) {
nsIFrame* kid;
aFrame->FirstChild(kid);
while (nsnull != kid) {
nsresult rv = FindFloatersIn(kid, aArray);
if (NS_OK != rv) {
return rv;
}
kid->GetNextSibling(kid);
}
}
return NS_OK;
}
void
nsBlockFrame::FindFloaters(LineData* aLine)
{
nsVoidArray* floaters = aLine->mFloaters;
if (nsnull != floaters) {
// Empty floater array before proceeding
floaters->Clear();
}
nsIFrame* frame = aLine->mFirstChild;
PRInt32 n = aLine->mChildCount;
while (--n >= 0) {
FindFloatersIn(frame, floaters);
frame->GetNextSibling(frame);
}
aLine->mFloaters = floaters;
#if XXX
if ((mLines == aLine) && (nsnull != mRunInFloaters) &&
(nsnull != floaters)) {
// Special check for the first line: remove any floaters that are
// "current line" floaters (they musn't show up in the lines
// floater array)
PRInt32 i;
n = mRunInFloaters->Count();
for (i = 0; i < n; i++) {
PRInt32 ix = floaters->IndexOf(mRunInFloaters->ElementAt(i));
if (ix >= 0) {
floaters->RemoveElementAt(ix);
}
}
}
#endif
// Get rid of floater array if we don't need it
if (nsnull != floaters) {
if (0 == floaters->Count()) {
delete floaters;
aLine->mFloaters = nsnull;
}
}
}
void
nsBlockFrame::PushLines(nsBlockReflowState& aState)
{
NS_ASSERTION(nsnull != aState.mPrevLine, "bad push");
LineData* lastLine = aState.mPrevLine;
LineData* nextLine = lastLine->mNext;
lastLine->mNext = nsnull;
mOverflowLines = nextLine;
// Break frame sibling list
nsIFrame* lastFrame = lastLine->LastChild();
lastFrame->SetNextSibling(nsnull);
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::PushLines: line=%p prevInFlow=%p nextInFlow=%p",
mOverflowLines, mPrevInFlow, mNextInFlow));
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
VerifyChildCount(mLines);
VerifyChildCount(mOverflowLines, PR_TRUE);
}
#endif
}
PRBool
nsBlockFrame::DrainOverflowLines()
{
PRBool drained = PR_FALSE;
// First grab the prev-in-flows overflow lines
nsBlockFrame* prevBlock = (nsBlockFrame*) mPrevInFlow;
if (nsnull != prevBlock) {
LineData* line = prevBlock->mOverflowLines;
if (nsnull != line) {
drained = PR_TRUE;
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::DrainOverflowLines: line=%p prevInFlow=%p",
line, prevBlock));
prevBlock->mOverflowLines = nsnull;
// Make all the frames on the mOverflowLines list mine
nsIFrame* lastFrame = nsnull;
nsIFrame* frame = line->mFirstChild;
while (nsnull != frame) {
nsIFrame* geometricParent;
nsIFrame* contentParent;
frame->GetGeometricParent(geometricParent);
frame->GetContentParent(contentParent);
if (contentParent == geometricParent) {
frame->SetContentParent(this);
}
frame->SetGeometricParent(this);
lastFrame = frame;
frame->GetNextSibling(frame);
}
// Join the line lists
if (nsnull == mLines) {
mLines = line;
}
else {
// Join the sibling lists together
lastFrame->SetNextSibling(mLines->mFirstChild);
// Place overflow lines at the front of our line list
LineData* lastLine = LastLine(line);
lastLine->mNext = mLines;
mLines = line;
}
// Update our first-content-index now that we have a new first child
mLines->mFirstChild->GetContentIndex(mFirstContentOffset);
}
}
// Now grab our own overflow lines
if (nsnull != mOverflowLines) {
// This can happen when we reflow and not everything fits and then
// we are told to reflow again before a next-in-flow is created
// and reflows.
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::DrainOverflowLines: from me, line=%p",
mOverflowLines));
LineData* lastLine = LastLine(mLines);
if (nsnull == lastLine) {
mLines = mOverflowLines;
// Update our first-content-index now that we have a new first child
mLines->mFirstChild->GetContentIndex(mFirstContentOffset);
}
else {
lastLine->mNext = mOverflowLines;
nsIFrame* lastFrame = lastLine->LastChild();
lastFrame->SetNextSibling(mOverflowLines->mFirstChild);
// Update our last-content-index now that we have a new last child
lastLine = LastLine(mOverflowLines);
lastLine->LastChild()->GetContentIndex(mLastContentOffset);
}
mOverflowLines = nsnull;
drained = PR_TRUE;
}
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
VerifyChildCount(mLines, PR_TRUE);
}
#endif
return drained;
}
nsresult
nsBlockFrame::InsertNewFrame(nsBlockFrame* aParentFrame,
nsIFrame* aNewFrame,
nsIFrame* aPrevSibling)
{
const nsStyleDisplay* display;
aNewFrame->GetStyleData(eStyleStruct_Display, (const nsStyleStruct*&) display);
const nsStylePosition* position;
aNewFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct*&) position);
PRUint16 newFrameIsBlock = nsLineLayout::TreatFrameAsBlock(display, position)
? LINE_IS_BLOCK : 0;
// Insert/append the frame into flows line list at the right spot
LineData* newLine;
LineData* line = aParentFrame->mLines;
if (nsnull == aPrevSibling) {
// Insert new frame into the sibling list
aNewFrame->SetNextSibling(line->mFirstChild);
if (line->IsBlock() || newFrameIsBlock) {
// Create a new line
newLine = new LineData(aNewFrame, 1, LINE_LAST_CONTENT_IS_COMPLETE |
newFrameIsBlock);
if (nsnull == newLine) {
return NS_ERROR_OUT_OF_MEMORY;
}
newLine->mNext = aParentFrame->mLines;
aParentFrame->mLines = newLine;
} else {
// Insert frame at the front of the line
line->mFirstChild = aNewFrame;
line->mChildCount++;
line->MarkDirty();
}
}
else {
// Find line containing the previous sibling to the new frame
line = FindLineContaining(line, aPrevSibling);
NS_ASSERTION(nsnull != line, "no line contains the previous sibling");
if (nsnull != line) {
if (line->IsBlock()) {
// Create a new line just after line
newLine = new LineData(aNewFrame, 1, LINE_LAST_CONTENT_IS_COMPLETE |
newFrameIsBlock);
if (nsnull == newLine) {
return NS_ERROR_OUT_OF_MEMORY;
}
newLine->mNext = line->mNext;
line->mNext = newLine;
}
else if (newFrameIsBlock) {
// Split line in two, if necessary. We can't allow a block to
// end up in an inline line.
if (line->IsLastChild(aPrevSibling)) {
// The new frame goes after prevSibling and prevSibling is
// the last frame on the line. Therefore we don't need to
// split the line, just create a new line.
newLine = new LineData(aNewFrame, 1, LINE_LAST_CONTENT_IS_COMPLETE |
newFrameIsBlock);
if (nsnull == newLine) {
return NS_ERROR_OUT_OF_MEMORY;
}
newLine->mNext = line->mNext;
line->mNext = newLine;
}
else {
// The new frame goes after prevSibling and prevSibling is
// somewhere in the line, but not at the end. Split the line
// just after prevSibling.
PRInt32 i, n = line->mChildCount;
nsIFrame* frame = line->mFirstChild;
for (i = 0; i < n; i++) {
if (frame == aPrevSibling) {
nsIFrame* nextSibling;
aPrevSibling->GetNextSibling(nextSibling);
// Create new line to hold the remaining frames
NS_ASSERTION(n - i - 1 > 0, "bad line count");
newLine = new LineData(nextSibling, n - i - 1,
line->mState & LINE_LAST_CONTENT_IS_COMPLETE);
if (nsnull == newLine) {
return NS_ERROR_OUT_OF_MEMORY;
}
newLine->mNext = line->mNext;
line->mNext = newLine;
line->MarkDirty();
line->SetLastContentIsComplete();
line->mChildCount = i + 1;
break;
}
frame->GetNextSibling(frame);
}
// Now create a new line to hold the block
newLine = new LineData(aNewFrame, 1,
newFrameIsBlock | LINE_LAST_CONTENT_IS_COMPLETE);
if (nsnull == newLine) {
return NS_ERROR_OUT_OF_MEMORY;
}
newLine->mNext = line->mNext;
line->mNext = newLine;
}
}
else {
// Insert frame into the line.
// NS_ASSERTION(line->GetLastContentIsComplete(), "bad line LCIC");
line->mChildCount++;
line->MarkDirty();
}
}
// Insert new frame into the sibling list; note: this must be done
// after the above logic because the above logic depends on the
// sibling list being in the "before insertion" state.
nsIFrame* nextSibling;
aPrevSibling->GetNextSibling(nextSibling);
aNewFrame->SetNextSibling(nextSibling);
aPrevSibling->SetNextSibling(aNewFrame);
}
return NS_OK;
}
// XXX we assume that the insertion is really an assertion and never an append
// XXX what about zero lines case
NS_IMETHODIMP
nsBlockFrame::ContentInserted(nsIPresShell* aShell,
nsIPresContext* aPresContext,
nsIContent* aContainer,
nsIContent* aChild,
PRInt32 aIndexInParent)
{
// Find the frame that precedes this frame
nsIFrame* prevSibling = nsnull;
if (aIndexInParent > 0) {
nsIContent* precedingContent;
aContainer->ChildAt(aIndexInParent - 1, precedingContent);
prevSibling = aShell->FindFrameWithContent(precedingContent);
NS_ASSERTION(nsnull != prevSibling, "no frame for preceding content");
NS_RELEASE(precedingContent);
// The frame may have a next-in-flow. Get the last-in-flow; we do
// it the hard way because we can't assume that prevSibling is a
// subclass of nsSplittableFrame.
nsIFrame* nextInFlow;
do {
prevSibling->GetNextInFlow(nextInFlow);
if (nsnull != nextInFlow) {
prevSibling = nextInFlow;
}
} while (nsnull != nextInFlow);
}
// Get the parent of the previous sibling (which will be the proper
// next-in-flow for the child). We expect it to be this frame or one
// of our next-in-flow(s).
nsBlockFrame* flow = this;
if (nsnull != prevSibling) {
prevSibling->GetGeometricParent((nsIFrame*&)flow);
}
// Now that we have the right flow block we can create the new
// frame; test and see if the inserted frame is a block or not.
// XXX create-frame could return that fact
nsIFrame* newFrame;
nsresult rv = nsHTMLBase::CreateFrame(aPresContext, flow, aChild,
nsnull, newFrame);
if (NS_OK != rv) {
return rv;
}
InsertNewFrame(flow, newFrame, prevSibling);
// Generate a reflow command
nsIReflowCommand* cmd;
rv = NS_NewHTMLReflowCommand(&cmd, flow, nsIReflowCommand::FrameInserted);
if (NS_OK != rv) {
return rv;
}
aShell->AppendReflowCommand(cmd);
NS_RELEASE(cmd);
// Update the content offsets of the flow block and all that follow
PRBool pseudos = flow->IsPseudoFrame();
flow->mLastContentOffset++;
if (pseudos) {
nsContainerFrame* flowParent = (nsContainerFrame*)flow->mGeometricParent;
flowParent->PropagateContentOffsets(flow, flow->mFirstContentOffset,
flow->mLastContentOffset,
flow->mLastContentIsComplete);
}
flow = (nsBlockFrame*) flow->mNextInFlow;
while (nsnull != flow) {
flow->mFirstContentOffset++;
flow->mLastContentOffset++;
if (pseudos) {
nsContainerFrame* flowParent = (nsContainerFrame*)flow->mGeometricParent;
flowParent->PropagateContentOffsets(flow, flow->mFirstContentOffset,
flow->mLastContentOffset,
flow->mLastContentIsComplete);
}
flow = (nsBlockFrame*) flow->mNextInFlow;
}
return NS_OK;
}
NS_IMETHODIMP
nsBlockFrame::ContentDeleted(nsIPresShell* aShell,
nsIPresContext* aPresContext,
nsIContent* aContainer,
nsIContent* aChild,
PRInt32 aIndexInParent)
{
// Find the frame that precedes the frame to destroy and the frame
// to destroy (the first-in-flow if the frame is continued). We also
// find which of our next-in-flows contain the dead frame.
nsBlockFrame* flow;
nsIFrame* deadFrame;
nsIFrame* prevSibling;
if (aIndexInParent > 0) {
nsIContent* precedingContent;
aContainer->ChildAt(aIndexInParent - 1, precedingContent);
prevSibling = aShell->FindFrameWithContent(precedingContent);
NS_RELEASE(precedingContent);
// The frame may have a next-in-flow. Get the last-in-flow; we do
// it the hard way because we can't assume that prevSibling is a
// subclass of nsSplittableFrame.
nsIFrame* nextInFlow;
do {
prevSibling->GetNextInFlow(nextInFlow);
if (nsnull != nextInFlow) {
prevSibling = nextInFlow;
}
} while (nsnull != nextInFlow);
// Get the dead frame (maybe)
prevSibling->GetGeometricParent((nsIFrame*&)flow);
prevSibling->GetNextSibling(deadFrame);
if (nsnull == deadFrame) {
// The deadFrame must be prevSibling's parent's next-in-flows
// first frame. Therefore it doesn't have a prevSibling.
flow = (nsBlockFrame*) flow->mNextInFlow;
if (nsnull != flow) {
deadFrame = flow->mLines->mFirstChild;
}
prevSibling = nsnull;
}
}
else {
prevSibling = nsnull;
flow = this;
deadFrame = mLines->mFirstChild;
}
NS_ASSERTION(nsnull != deadFrame, "yikes! couldn't find frame");
if (nsnull == deadFrame) {
return NS_OK;
}
// Generate a reflow command for the appropriate flow frame
nsIReflowCommand* cmd;
nsresult rv = NS_NewHTMLReflowCommand(&cmd, flow,
nsIReflowCommand::FrameDeleted);
if (NS_OK != rv) {
return rv;
}
aShell->AppendReflowCommand(cmd);
NS_RELEASE(cmd);
// Find line that contains deadFrame; we also find the pointer to
// the line.
LineData** linep = &flow->mLines;
LineData* line = flow->mLines;
while (nsnull != line) {
if (line->Contains(deadFrame)) {
break;
}
linep = &line->mNext;
line = line->mNext;
}
// Remove frame and its continuations
PRBool pseudos = flow->IsPseudoFrame();
while (nsnull != deadFrame) {
while ((nsnull != line) && (nsnull != deadFrame)) {
#ifdef NS_DEBUG
nsIFrame* parent;
deadFrame->GetGeometricParent(parent);
NS_ASSERTION(flow == parent, "messed up delete code");
#endif
NS_FRAME_TRACE(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockFrame::ContentDeleted: deadFrame=%p",
deadFrame));
// Remove deadFrame from the line
if (line->mFirstChild == deadFrame) {
nsIFrame* nextFrame;
deadFrame->GetNextSibling(nextFrame);
line->mFirstChild = nextFrame;
}
else {
nsIFrame* lastFrame = line->LastChild();
if (lastFrame == deadFrame) {
line->SetLastContentIsComplete();
}
}
// Take deadFrame out of the sibling list
if (nsnull != prevSibling) {
nsIFrame* nextFrame;
deadFrame->GetNextSibling(nextFrame);
prevSibling->SetNextSibling(nextFrame);
}
// Destroy frame; capture its next-in-flow first in case we need
// to destroy that too.
nsIFrame* nextInFlow;
deadFrame->GetNextInFlow(nextInFlow);
if (nsnull != nextInFlow) {
deadFrame->BreakFromNextFlow();
}
deadFrame->DeleteFrame(*aPresContext);
deadFrame = nextInFlow;
// If line is empty, remove it now
LineData* next = line->mNext;
if (0 == --line->mChildCount) {
*linep = next;
line->mNext = nsnull;
delete line;
}
else {
linep = &line->mNext;
}
line = next;
}
// Update flows last-content-offset. Note that only the last
// content needs updating when a deadFrame is removed from flow
// (because only the children that follow the deletion need
// renumbering).
flow->mLastContentOffset--;
if (pseudos) {
nsContainerFrame* parent = (nsContainerFrame*)flow->mGeometricParent;
parent->PropagateContentOffsets(flow, flow->mFirstContentOffset,
flow->mLastContentOffset,
flow->mLastContentIsComplete);
#if XXX
if (parent != flowParent) {
nsIReflowCommand* cmd;
rv = NS_NewHTMLReflowCommand(&cmd, flow,
nsIReflowCommand::FrameDeleted);
if (NS_OK != rv) {
return rv;
}
aShell->AppendReflowCommand(cmd);
NS_RELEASE(cmd);
}
#endif
}
// Advance to next flow block if the frame has more continuations
if (nsnull != deadFrame) {
flow = (nsBlockFrame*) flow->mNextInFlow;
NS_ASSERTION(nsnull != flow, "whoops, continuation without a parent");
line = flow->mLines;
prevSibling = nsnull;
}
}
// Repair any remaining next-in-flows content offsets; these are the
// next-in-flows the follow the last flow container that contained
// one of the deadFrame's. Therefore both content offsets need
// updating (because all the children are following the deletion).
flow = (nsBlockFrame*) flow->mNextInFlow;
while (nsnull != flow) {
flow->mFirstContentOffset--;
flow->mLastContentOffset--;
flow = (nsBlockFrame*) flow->mNextInFlow;
}
#ifdef NS_DEBUG
if (GetVerifyTreeEnable()) {
// Verify that the above delete code actually deleted the frames!
flow = this;
while (nsnull != flow) {
nsIFrame* frame = flow->mLines->mFirstChild;
while (nsnull != frame) {
nsIContent* content;
frame->GetContent(content);
NS_ASSERTION(content != aChild, "delete failed");
NS_RELEASE(content);
frame->GetNextSibling(frame);
}
flow = (nsBlockFrame*) flow->mNextInFlow;
}
}
#endif
return rv;
}
PRBool
nsBlockFrame::DeleteNextInFlowsFor(nsIPresContext& aPresContext, nsIFrame* aChild)
{
NS_PRECONDITION(IsChild(aChild), "bad geometric parent");
nsIFrame* nextInFlow;
nsBlockFrame* parent;
aChild->GetNextInFlow(nextInFlow);
NS_PRECONDITION(nsnull != nextInFlow, "null next-in-flow");
nextInFlow->GetGeometricParent((nsIFrame*&)parent);
// If the next-in-flow has a next-in-flow then delete it, too (and
// delete it first).
nsIFrame* nextNextInFlow;
nextInFlow->GetNextInFlow(nextNextInFlow);
if (nsnull != nextNextInFlow) {
parent->DeleteNextInFlowsFor(aPresContext, nextInFlow);
}
#ifdef NS_DEBUG
PRInt32 childCount;
nsIFrame* firstChild;
nextInFlow->ChildCount(childCount);
nextInFlow->FirstChild(firstChild);
NS_ASSERTION((0 == childCount) && (nsnull == firstChild),
"deleting !empty next-in-flow");
#endif
// Disconnect the next-in-flow from the flow list
nextInFlow->BreakFromPrevFlow();
// Remove nextInFlow from the parents line list. Also remove it from
// the sibling list.
if (RemoveChild(parent->mLines, nextInFlow)) {
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::DeleteNextInFlowsFor: frame=%p (from mLines)",
nextInFlow));
goto done;
}
// If we get here then we didn't find the child on the line list. If
// it's not there then it has to be on the overflow lines list.
if (nsnull != mOverflowLines) {
if (RemoveChild(parent->mOverflowLines, nextInFlow)) {
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::DeleteNextInFlowsFor: frame=%p (from overflow)",
nextInFlow));
goto done;
}
}
NS_NOTREACHED("can't find next-in-flow in overflow list");
done:;
// If the parent is us then we will finish reflowing and update the
// content offsets of our parents when we are a pseudo-frame; if the
// parent is not us then it's a next-in-flow which means it will get
// reflowed by our parent and fix its content offsets. So there.
#if XXX
if (parent->IsPseudoFrame()) {
parent->PropagateContentOffsets();
}
#endif
// Delete the next-in-flow frame and adjust its parents child count
nextInFlow->DeleteFrame(aPresContext);
#ifdef NS_DEBUG
aChild->GetNextInFlow(nextInFlow);
NS_POSTCONDITION(nsnull == nextInFlow, "non null next-in-flow");
#endif
return PR_TRUE;
}
PRBool
nsBlockFrame::RemoveChild(LineData* aLines, nsIFrame* aChild)
{
LineData* line = aLines;
nsIFrame* prevChild = nsnull;
while (nsnull != line) {
nsIFrame* child = line->mFirstChild;
PRInt32 n = line->mChildCount;
while (--n >= 0) {
nsIFrame* nextChild;
child->GetNextSibling(nextChild);
if (child == aChild) {
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("nsBlockFrame::RemoveChild: line=%p frame=%p",
line, aChild));
// Continuations HAVE to be at the start of a line
NS_ASSERTION(child == line->mFirstChild, "bad continuation");
line->mFirstChild = nextChild;
if (0 == --line->mChildCount) {
line->mFirstChild = nsnull;
}
if (nsnull != prevChild) {
// When nextInFlow and it's continuation are in the same
// container then we remove the nextInFlow from the sibling
// list.
prevChild->SetNextSibling(nextChild);
}
return PR_TRUE;
}
prevChild = child;
child = nextChild;
}
line = line->mNext;
}
return PR_FALSE;
}
#if 0
NS_IMETHODIMP
nsBlockFrame::DidReflow(nsIPresContext& aPresContext,
nsDidReflowStatus aStatus)
{
NS_FRAME_TRACE(NS_FRAME_TRACE_CALLS,
("enter nsBlockFrame::DidReflow: status=%d",
aStatus));
if (NS_FRAME_REFLOW_FINISHED == aStatus) {
LineData* line = mLines;
while (nsnull != line) {
// XXX This can't be done because we need to pass on DidReflow's
// to things that weren't touched but are moving (like an
// embedded view that needs to update its view coordinate)
// XXX We need a better solution!
if (line->NeedsDidReflow()) {
line->ClearNeedDidReflow();
nsIFrame* kid = line->mFirstChild;
PRInt32 n = line->mChildCount;
while (--n >= 0) {
kid->DidReflow(aPresContext, aStatus);
kid->GetNextSibling(kid);
}
}
line = line->mNext;
}
}
NS_FRAME_TRACE_OUT("nsBlockFrame::DidReflow");
// Let nsFrame position and size our view (if we have one), and clear
// the NS_FRAME_IN_REFLOW bit
return nsFrame::DidReflow(aPresContext, aStatus);
}
#endif
////////////////////////////////////////////////////////////////////////
// Floater support
void
nsBlockFrame::ReflowFloater(nsIPresContext* aPresContext,
nsBlockReflowState& aState,
nsIFrame* aFloaterFrame)
{
// Prepare the reflow state for the floater frame. Note that initially
// it's maxSize will be 0,0 until we compute it (we need the reflowState
// for nsLayout::GetStyleSize so we have to do this first)
nsSize kidAvailSize(0, 0);
nsReflowState reflowState(aFloaterFrame, aState, kidAvailSize,
eReflowReason_Initial);
// Compute the available space for the floater. Use the default
// 'auto' width and height values
nsSize styleSize;
PRIntn styleSizeFlags =
nsCSSLayout::GetStyleSize(aPresContext, reflowState, styleSize);
// XXX The width and height are for the content area only. Add in space for
// border and padding
if (styleSizeFlags & NS_SIZE_HAS_WIDTH) {
kidAvailSize.width = styleSize.width;
}
else {
// If we are floating something and we don't know the width then
// find a maximum width for it to reflow into.
// XXX if the child is a block (instead of a table, say) then this
// will do the wrong thing. A better choice would be
// NS_UNCONSTRAINEDSIZE, but that has special meaning to tables.
const nsReflowState* rsp = &aState;
kidAvailSize.width = 0;
while (nsnull != rsp) {
if ((0 != rsp->maxSize.width) &&
(NS_UNCONSTRAINEDSIZE != rsp->maxSize.width)) {
kidAvailSize.width = rsp->maxSize.width;
break;
}
rsp = rsp->parentReflowState;
}
NS_ASSERTION(0 != kidAvailSize.width, "no width for block found");
}
if (styleSizeFlags & NS_SIZE_HAS_HEIGHT) {
kidAvailSize.height = styleSize.height;
}
else {
kidAvailSize.height = NS_UNCONSTRAINEDSIZE;
}
reflowState.maxSize = kidAvailSize;
// Resize reflow the anchored item into the available space
// XXX Check for complete?
nsReflowMetrics desiredSize(nsnull);
nsReflowStatus status;
aFloaterFrame->WillReflow(*aPresContext);
aFloaterFrame->Reflow(*aPresContext, desiredSize, reflowState, status);
aFloaterFrame->SizeTo(desiredSize.width, desiredSize.height);
}
PRBool
nsBlockFrame::AddFloater(nsIPresContext* aPresContext,
const nsReflowState& aReflowState,
nsIFrame* aFloater,
nsPlaceholderFrame* aPlaceholder)
{
// Walk up reflow state chain, looking for ourself
const nsReflowState* rs = &aReflowState;
while (nsnull != rs) {
if (rs->frame == this) {
break;
}
rs = rs->parentReflowState;
}
if (nsnull == rs) {
// Never mind
return PR_FALSE;
}
nsBlockReflowState* state = (nsBlockReflowState*) rs;
// Get the frame associated with the space manager, and get its
// nsIAnchoredItems interface
nsIFrame* frame = state->mSpaceManager->GetFrame();
nsIAnchoredItems* anchoredItems = nsnull;
frame->QueryInterface(kIAnchoredItemsIID, (void**)&anchoredItems);
NS_ASSERTION(nsnull != anchoredItems, "no anchored items interface");
if (nsnull != anchoredItems) {
anchoredItems->AddAnchoredItem(aFloater,
nsIAnchoredItems::anHTMLFloater,
this);
// Reflow the floater (the first time we do it here; later on it's
// done during the reflow of the line that contains the floater)
ReflowFloater(aPresContext, *state, aFloater);
#if XXX_remove_me
// Determine whether we place it at the top or we place it below the
// current line
// if (IsLeftMostChild(aPlaceholder)) {
// if (nsnull == mRunInFloaters) {
// mRunInFloaters = new nsVoidArray;
// }
// mRunInFloaters->AppendElement(aPlaceholder);
// state->PlaceCurrentLineFloater(aFloater);
// }
else {
// Add the placeholder to our to-do list
state->mPendingFloaters.AppendElement(aPlaceholder);
}
#endif
return PR_TRUE;
}
return PR_FALSE;
}
// This is called by the line layout's AddFloater method when a
// place-holder frame is reflowed in a line. If the floater is a
// left-most child (it's x coordinate is at the line's left margin)
// then the floater is place immediately, otherwise the floater
// placement is deferred until the line has been reflowed.
void
nsBlockReflowState::AddFloater(nsPlaceholderFrame* aPlaceholder)
{
// Update the current line's floater array
NS_ASSERTION(nsnull != mCurrentLine, "null ptr");
if (nsnull == mCurrentLine->mFloaters) {
mCurrentLine->mFloaters = new nsVoidArray();
}
mCurrentLine->mFloaters->AppendElement(aPlaceholder);
// Now place the floater immediately if possible. Otherwise stash it
// away in mPendingFloaters and place it later.
if (IsLeftMostChild(aPlaceholder)) {
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::AddFloater: IsLeftMostChild, placeHolder=%p",
aPlaceholder));
// Because we are in the middle of reflowing a placeholder frame
// within a line (and possibly nested in an inline frame or two
// that's a child of our block) we need to restore the space
// manager's translation to the space that the block resides in
// before placing the floater.
nscoord ox, oy;
mSpaceManager->GetTranslation(ox, oy);
nscoord dx = ox - mSpaceManagerX;
nscoord dy = oy - mSpaceManagerY;
mSpaceManager->Translate(-dx, -dy);
PlaceFloater(aPlaceholder);
// Pass on updated available space to the current line
GetAvailableSpace();
mInlineLayout.SetReflowSpace(mCurrentBand.availSpace.x, mY,
mCurrentBand.availSpace.width,
mCurrentBand.availSpace.height);
// Restore coordinate system
mSpaceManager->Translate(dx, dy);
}
else {
// This floater will be placed after the line is done (it is a
// below current line floater).
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::AddFloater: pending, placeHolder=%p",
aPlaceholder));
mPendingFloaters.AppendElement(aPlaceholder);
}
}
// XXX Inline frame layout and block layout need to be more
// coordinated; IsFirstChild in the inline code is doing much the same
// thing as below; firstness should be well known.
PRBool
nsBlockReflowState::IsLeftMostChild(nsIFrame* aFrame)
{
for (;;) {
nsIFrame* parent;
aFrame->GetGeometricParent(parent);
if (parent == mBlock) {
nsIFrame* child = mCurrentLine->mFirstChild;
PRInt32 n = mCurrentLine->mChildCount;
while ((nsnull != child) && (aFrame != child) && (--n >= 0)) {
nsSize size;
// Is the child zero-sized?
child->GetSize(size);
if (size.width > 0) {
// We found a non-zero sized child frame that precedes aFrame
return PR_FALSE;
}
child->GetNextSibling(child);
}
break;
}
else {
// See if there are any non-zero sized child frames that precede
// aFrame in the child list
nsIFrame* child;
parent->FirstChild(child);
while ((nsnull != child) && (aFrame != child)) {
nsSize size;
// Is the child zero-sized?
child->GetSize(size);
if (size.width > 0) {
// We found a non-zero sized child frame that precedes aFrame
return PR_FALSE;
}
child->GetNextSibling(child);
}
}
// aFrame is the left-most non-zero sized frame in its geometric parent.
// Walk up one level and check that its parent is left-most as well
aFrame = parent;
}
return PR_TRUE;
}
void
nsBlockReflowState::PlaceFloater(nsPlaceholderFrame* aPlaceholder)
{
nsISpaceManager* sm = mSpaceManager;
nsIFrame* floater = aPlaceholder->GetAnchoredItem();
// Remove floaters old placement from the space manager
sm->RemoveRegion(floater);
// Reflow the floater if it's targetted for a reflow
if (nsnull != reflowCommand) {
nsIFrame* target;
reflowCommand->GetTarget(target);
if (floater == target) {
mBlock->ReflowFloater(mPresContext, *this, floater);
}
}
// Get the band of available space
GetAvailableSpace();
// Get the type of floater
const nsStyleDisplay* floaterDisplay;
const nsStyleSpacing* floaterSpacing;
floater->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)floaterDisplay);
floater->GetStyleData(eStyleStruct_Spacing,
(const nsStyleStruct*&)floaterSpacing);
// Get the floaters bounding box and margin information
nsRect region;
floater->GetRect(region);
nsMargin floaterMargin;
floaterSpacing->CalcMarginFor(floater, floaterMargin);
// Compute the size of the region that will impact the space manager
region.y = mY;
switch (floaterDisplay->mFloats) {
default:
NS_NOTYETIMPLEMENTED("Unsupported floater type");
// FALL THROUGH
case NS_STYLE_FLOAT_LEFT:
region.x = mCurrentBand.availSpace.x;
region.width += mBulletPadding;
break;
case NS_STYLE_FLOAT_RIGHT:
region.x = mCurrentBand.availSpace.XMost() - region.width;
region.x -= floaterMargin.right;
if (region.x < 0) {
region.x = 0;
}
}
// Factor in the floaters margins
region.width += floaterMargin.left + floaterMargin.right;
region.height += floaterMargin.top + floaterMargin.bottom;
sm->AddRectRegion(floater, region);
// Set the origin of the floater in world coordinates
nscoord worldX = mSpaceManagerX;
nscoord worldY = mSpaceManagerY;
if (NS_STYLE_FLOAT_RIGHT == floaterDisplay->mFloats) {
floater->MoveTo(region.x + worldX + floaterMargin.left,
region.y + worldY + floaterMargin.top);
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::PlaceFloater: right, placeHolder=%p xy=%d,%d worldxy=%d,%d",
aPlaceholder, region.x + worldX + floaterMargin.left,
region.y + worldY + floaterMargin.top,
worldX, worldY));
}
else {
floater->MoveTo(region.x + worldX + floaterMargin.left + mBulletPadding,
region.y + worldY + floaterMargin.top);
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::PlaceFloater: left, placeHolder=%p xy=%d,%d worldxy=%d,%d",
aPlaceholder, region.x + worldX + floaterMargin.left + mBulletPadding,
region.y + worldY + floaterMargin.top,
worldX, worldY));
}
}
void
nsBlockReflowState::PlaceFloaters(nsVoidArray* aFloaters)
{
NS_PRECONDITION(aFloaters->Count() > 0, "no floaters");
PRInt32 numFloaters = aFloaters->Count();
for (PRInt32 i = 0; i < numFloaters; i++) {
nsPlaceholderFrame* placeholderFrame = (nsPlaceholderFrame*)
aFloaters->ElementAt(i);
if (IsLeftMostChild(placeholderFrame)) {
// Left-most children are placed during the line's reflow
continue;
}
PlaceFloater(placeholderFrame);
}
// Pass on updated available space to the current line
GetAvailableSpace();
mInlineLayout.SetReflowSpace(mCurrentBand.availSpace.x, mY,
mCurrentBand.availSpace.width,
mCurrentBand.availSpace.height);
}
void
nsBlockReflowState::ClearFloaters(PRUint8 aBreakType)
{
for (;;) {
PRBool haveFloater = PR_FALSE;
// Find the Y coordinate to clear to. Note that the band trapezoid
// coordinates are relative to the last translation. Since we
// never translate by Y before getting a band, we can use absolute
// comparisons against mY.
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: mY=%d trapCount=%d",
mY, mCurrentBand.count));
nscoord clearYMost = mY;
nsRect tmp;
PRInt32 i;
for (i = 0; i < mCurrentBand.count; i++) {
const nsStyleDisplay* display;
nsBandTrapezoid* trapezoid = &mCurrentBand.data[i];
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: trap=%d state=%d",
i, trapezoid->state));
if (nsBandTrapezoid::Available != trapezoid->state) {
haveFloater = PR_TRUE;
if (nsBandTrapezoid::OccupiedMultiple == trapezoid->state) {
PRInt32 fn, numFrames = trapezoid->frames->Count();
NS_ASSERTION(numFrames > 0, "bad trapezoid frame list");
for (fn = 0; fn < numFrames; fn++) {
nsIFrame* frame = (nsIFrame*) trapezoid->frames->ElementAt(fn);
frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)display);
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: frame[%d]=%p floats=%d",
fn, frame, display->mFloats));
switch (display->mFloats) {
case NS_STYLE_FLOAT_LEFT:
if ((NS_STYLE_CLEAR_LEFT == aBreakType) ||
(NS_STYLE_CLEAR_LEFT_AND_RIGHT == aBreakType)) {
trapezoid->GetRect(tmp);
nscoord ym = tmp.YMost();
if (ym > clearYMost) {
clearYMost = ym;
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: left clearYMost=%d",
clearYMost));
}
}
break;
case NS_STYLE_FLOAT_RIGHT:
if ((NS_STYLE_CLEAR_RIGHT == aBreakType) ||
(NS_STYLE_CLEAR_LEFT_AND_RIGHT == aBreakType)) {
trapezoid->GetRect(tmp);
nscoord ym = tmp.YMost();
if (ym > clearYMost) {
clearYMost = ym;
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: right clearYMost=%d",
clearYMost));
}
}
break;
}
}
}
else {
trapezoid->frame->GetStyleData(eStyleStruct_Display,
(const nsStyleStruct*&)display);
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: frame=%p floats=%d",
trapezoid->frame, display->mFloats));
switch (display->mFloats) {
case NS_STYLE_FLOAT_LEFT:
if ((NS_STYLE_CLEAR_LEFT == aBreakType) ||
(NS_STYLE_CLEAR_LEFT_AND_RIGHT == aBreakType)) {
trapezoid->GetRect(tmp);
nscoord ym = tmp.YMost();
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: left? ym=%d clearYMost=%d",
ym, clearYMost));
if (ym > clearYMost) {
clearYMost = ym;
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: left clearYMost=%d",
clearYMost));
}
}
break;
case NS_STYLE_FLOAT_RIGHT:
if ((NS_STYLE_CLEAR_RIGHT == aBreakType) ||
(NS_STYLE_CLEAR_LEFT_AND_RIGHT == aBreakType)) {
trapezoid->GetRect(tmp);
nscoord ym = tmp.YMost();
if (ym > clearYMost) {
clearYMost = ym;
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: right clearYMost=%d",
clearYMost));
}
}
break;
}
}
}
}
if (!haveFloater) {
break;
}
if (clearYMost == mY) {
// Nothing to clear
break;
}
NS_FRAME_LOG(NS_FRAME_TRACE_CHILD_REFLOW,
("nsBlockReflowState::ClearFloaters: mY=%d clearYMost=%d",
mY, clearYMost));
mY = clearYMost + 1;
// Get a new band
GetAvailableSpace();
}
}
//////////////////////////////////////////////////////////////////////
// Painting, event handling
PRIntn
nsBlockFrame::GetSkipSides() const
{
PRIntn skip = 0;
if (nsnull != mPrevInFlow) {
skip |= 1 << NS_SIDE_TOP;
}
if (nsnull != mNextInFlow) {
skip |= 1 << NS_SIDE_BOTTOM;
}
return skip;
}
NS_IMETHODIMP
nsBlockFrame::Paint(nsIPresContext& aPresContext,
nsIRenderingContext& aRenderingContext,
const nsRect& aDirtyRect)
{
// Paint our background and border
const nsStyleDisplay* disp =
(const nsStyleDisplay*)mStyleContext->GetStyleData(eStyleStruct_Display);
if (disp->mVisible && mRect.width && mRect.height) {
PRIntn skipSides = GetSkipSides();
const nsStyleColor* color =
(const nsStyleColor*)mStyleContext->GetStyleData(eStyleStruct_Color);
const nsStyleSpacing* spacing =
(const nsStyleSpacing*)mStyleContext->GetStyleData(eStyleStruct_Spacing);
nsRect rect(0, 0, mRect.width, mRect.height);
nsCSSRendering::PaintBackground(aPresContext, aRenderingContext, this,
aDirtyRect, rect, *color);
nsCSSRendering::PaintBorder(aPresContext, aRenderingContext, this,
aDirtyRect, rect, *spacing, skipSides);
}
PaintChildren(aPresContext, aRenderingContext, aDirtyRect);
if (nsIFrame::GetShowFrameBorders()) {
nsIView* view;
GetView(view);
if (nsnull != view) {
aRenderingContext.SetColor(NS_RGB(0,0,255));
}
else {
aRenderingContext.SetColor(NS_RGB(255,0,0));
}
aRenderingContext.DrawRect(0, 0, mRect.width, mRect.height);
}
return NS_OK;
}
// aDirtyRect is in our coordinate system
// child rect's are also in our coordinate system
void
nsBlockFrame::PaintChildren(nsIPresContext& aPresContext,
nsIRenderingContext& aRenderingContext,
const nsRect& aDirtyRect)
{
// Set clip rect so that children don't leak out of us
const nsStyleDisplay* disp =
(const nsStyleDisplay*)mStyleContext->GetStyleData(eStyleStruct_Display);
PRBool hidden = PR_FALSE;
if (NS_STYLE_OVERFLOW_HIDDEN == disp->mOverflow) {
aRenderingContext.PushState();
aRenderingContext.SetClipRect(nsRect(0, 0, mRect.width, mRect.height),
nsClipCombine_kIntersect);
hidden = PR_TRUE;
}
// Iterate the lines looking for lines that intersect the dirty rect
for (LineData* line = mLines; nsnull != line; line = line->mNext) {
// Stop when we get to a line that's below the dirty rect
if (line->mBounds.y >= aDirtyRect.YMost()) {
break;
}
// If the line overlaps the dirty rect then iterate the child frames
// and paint those frames that intersect the dirty rect
if (line->mBounds.YMost() > aDirtyRect.y) {
nsIFrame* kid = line->mFirstChild;
for (PRUint16 i = 0; i < line->mChildCount; i++) {
nsIView *pView;
kid->GetView(pView);
if (nsnull == pView) {
nsRect kidRect;
kid->GetRect(kidRect);
nsRect damageArea;
#ifdef NS_DEBUG
PRBool overlap = PR_FALSE;
if (nsIFrame::GetShowFrameBorders() &&
((kidRect.width == 0) || (kidRect.height == 0))) {
nscoord xmost = aDirtyRect.XMost();
nscoord ymost = aDirtyRect.YMost();
if ((aDirtyRect.x <= kidRect.x) && (kidRect.x < xmost) &&
(aDirtyRect.y <= kidRect.y) && (kidRect.y < ymost)) {
overlap = PR_TRUE;
}
}
else {
overlap = damageArea.IntersectRect(aDirtyRect, kidRect);
}
#else
PRBool overlap = damageArea.IntersectRect(aDirtyRect, kidRect);
#endif
if (overlap) {
// Translate damage area into kid's coordinate system
nsRect kidDamageArea(damageArea.x - kidRect.x,
damageArea.y - kidRect.y,
damageArea.width, damageArea.height);
aRenderingContext.PushState();
aRenderingContext.Translate(kidRect.x, kidRect.y);
kid->Paint(aPresContext, aRenderingContext, kidDamageArea);
#ifdef NS_DEBUG
if (nsIFrame::GetShowFrameBorders() &&
(0 != kidRect.width) && (0 != kidRect.height)) {
nsIView* view;
GetView(view);
if (nsnull != view) {
aRenderingContext.SetColor(NS_RGB(0,0,255));
}
else {
aRenderingContext.SetColor(NS_RGB(255,0,0));
}
aRenderingContext.DrawRect(0, 0, kidRect.width, kidRect.height);
}
#endif
aRenderingContext.PopState();
}
}
// Get the next frame on this line
kid->GetNextSibling(kid);
}
}
}
if (hidden) {
aRenderingContext.PopState();
}
}
//////////////////////////////////////////////////////////////////////
// Debugging
#ifdef NS_DEBUG
static PRBool
InLineList(LineData* aLines, nsIFrame* aFrame)
{
while (nsnull != aLines) {
nsIFrame* frame = aLines->mFirstChild;
PRInt32 n = aLines->mChildCount;
while (--n >= 0) {
if (frame == aFrame) {
return PR_TRUE;
}
frame->GetNextSibling(frame);
}
aLines = aLines->mNext;
}
return PR_FALSE;
}
static PRBool
InSiblingList(LineData* aLine, nsIFrame* aFrame)
{
if (nsnull != aLine) {
nsIFrame* frame = aLine->mFirstChild;
while (nsnull != frame) {
if (frame == aFrame) {
return PR_TRUE;
}
frame->GetNextSibling(frame);
}
}
return PR_FALSE;
}
PRBool
nsBlockFrame::IsChild(nsIFrame* aFrame)
{
nsIFrame* parent;
aFrame->GetGeometricParent(parent);
if (parent != (nsIFrame*)this) {
return PR_FALSE;
}
if (InLineList(mLines, aFrame) && InSiblingList(mLines, aFrame)) {
return PR_TRUE;
}
if (InLineList(mOverflowLines, aFrame) &&
InSiblingList(mOverflowLines, aFrame)) {
return PR_TRUE;
}
return PR_FALSE;
}
#endif
#define VERIFY_ASSERT(_expr, _msg) \
if (!(_expr)) { \
DumpTree(); \
} \
NS_ASSERTION(_expr, _msg)
NS_IMETHODIMP
nsBlockFrame::VerifyTree() const
{
#ifdef NS_DEBUG
NS_ASSERTION(0 == (mState & NS_FRAME_IN_REFLOW), "frame is in reflow");
VERIFY_ASSERT(nsnull == mOverflowLines, "bad overflow list");
// Verify that child count is the same as the line's mChildCount's
VerifyChildCount(mLines);
// Verify child content offsets and index-in-parents
PRInt32 offset = GetFirstContentOffset();
nsIFrame* child = (nsnull == mLines) ? nsnull : mLines->mFirstChild;
while (nsnull != child) {
// Make sure child is ours
nsIFrame* parent;
child->GetGeometricParent(parent);
VERIFY_ASSERT(parent == (nsIFrame*)this, "bad parent");
// Make sure that the child's tree is valid
child->VerifyTree();
// Make sure child's index-in-parent is correct
PRInt32 indexInParent;
child->GetContentIndex(indexInParent);
VERIFY_ASSERT(offset == indexInParent, "bad child offset");
nsIFrame* nextInFlow;
child->GetNextInFlow(nextInFlow);
if (nsnull == nextInFlow) {
offset++;
}
child->GetNextSibling(child);
}
// Verify that our last content offset is correct
if (0 != mChildCount) {
if (GetLastContentIsComplete()) {
VERIFY_ASSERT(offset == GetLastContentOffset() + 1, "bad last offset");
} else {
VERIFY_ASSERT(offset == GetLastContentOffset(), "bad last offset");
}
}
#if XXX
// Make sure that our flow blocks offsets are all correct
if (nsnull == mPrevInFlow) {
PRInt32 nextOffset = NextChildOffset();
nsContainerFrame* nextInFlow = (nsContainerFrame*) mNextInFlow;
while (nsnull != nextInFlow) {
VERIFY_ASSERT(0 != nextInFlow->mChildCount, "empty next-in-flow");
VERIFY_ASSERT(nextInFlow->GetFirstContentOffset() == nextOffset,
"bad next-in-flow first offset");
nextOffset = nextInFlow->NextChildOffset();
nextInFlow = (nsContainerFrame*) nextInFlow->mNextInFlow;
}
}
#endif
#endif
return NS_OK;
}
#ifdef DO_SELECTION
nsIFrame * nsBlockFrame::FindHitFrame(nsBlockFrame * aBlockFrame,
const nscoord aX,
const nscoord aY,
const nsPoint & aPoint)
{
nsPoint mousePoint(aPoint.x-aX, aPoint.y-aY);
nsIFrame * contentFrame = nsnull;
LineData * line = aBlockFrame->mLines;
if (nsnull != line) {
// First find the line that contains the aIndex
while (nsnull != line && contentFrame == nsnull) {
nsIFrame* frame = line->mFirstChild;
PRInt32 n = line->mChildCount;
while (--n >= 0) {
nsRect bounds;
frame->GetRect(bounds);
if (bounds.Contains(mousePoint)) {
nsBlockFrame * blockFrame;
if (NS_OK == frame->QueryInterface(kBlockFrameCID, (void**)&blockFrame)) {
frame = FindHitFrame(blockFrame, bounds.x, bounds.y, aPoint);
//NS_RELEASE(blockFrame);
return frame;
} else {
return frame;
}
}
frame->GetNextSibling(frame);
}
line = line->mNext;
}
}
return aBlockFrame;
}
NS_METHOD nsBlockFrame::HandleEvent(nsIPresContext& aPresContext,
nsGUIEvent* aEvent,
nsEventStatus& aEventStatus)
{
if (0) {
nsHTMLContainerFrame::HandleEvent(aPresContext, aEvent, aEventStatus);
}
//return nsFrame::HandleEvent(aPresContext, aEvent, aEventStatus);
aEventStatus = nsEventStatus_eIgnore;
//if (nsnull != mContent && (aEvent->message != NS_MOUSE_LEFT_BUTTON_UP ||
// (aEvent->message == NS_MOUSE_LEFT_BUTTON_UP && !mDoingSelection))) {
if (nsnull != mContent) {
mContent->HandleDOMEvent(aPresContext, (nsEvent*)aEvent, nsnull, DOM_EVENT_INIT, aEventStatus);
}
if (DisplaySelection(aPresContext) == PR_FALSE) {
if (aEvent->message != NS_MOUSE_LEFT_BUTTON_DOWN) {
return NS_OK;
}
}
if (aEvent->message == NS_MOUSE_LEFT_BUTTON_DOWN) {
int x = 0;
}
//nsRect bounds;
//GetRect(bounds);
//nsIFrame * contentFrame = FindHitFrame(this, bounds.x, bounds.y, aEvent->point);
nsIFrame * contentFrame = FindHitFrame(this, 0,0, aEvent->point);
if (contentFrame == nsnull) {
return NS_OK;
}
if(nsEventStatus_eConsumeNoDefault != aEventStatus) {
if (aEvent->message == NS_MOUSE_LEFT_BUTTON_DOWN) {
} else if (aEvent->message == NS_MOUSE_MOVE && mDoingSelection ||
aEvent->message == NS_MOUSE_LEFT_BUTTON_UP) {
// no-op
} else {
return NS_OK;
}
if (aEvent->message == NS_MOUSE_LEFT_BUTTON_UP) {
if (mDoingSelection) {
contentFrame->HandleRelease(aPresContext, aEvent, aEventStatus);
}
} else if (aEvent->message == NS_MOUSE_MOVE) {
mDidDrag = PR_TRUE;
contentFrame->HandleDrag(aPresContext, aEvent, aEventStatus);
} else if (aEvent->message == NS_MOUSE_LEFT_BUTTON_DOWN) {
contentFrame->HandlePress(aPresContext, aEvent, aEventStatus);
}
}
return NS_OK;
}
nsIFrame * gNearByFrame = nsnull;
NS_METHOD nsBlockFrame::HandleDrag(nsIPresContext& aPresContext,
nsGUIEvent* aEvent,
nsEventStatus& aEventStatus)
{
if (DisplaySelection(aPresContext) == PR_FALSE)
{
aEventStatus = nsEventStatus_eIgnore;
return NS_OK;
}
// Keep old start and end
//nsIContent * startContent = mSelectionRange->GetStartContent(); // ref counted
//nsIContent * endContent = mSelectionRange->GetEndContent(); // ref counted
mDidDrag = PR_TRUE;
nsIFrame * contentFrame = nsnull;
LineData* line = mLines;
if (nsnull != line) {
// First find the line that contains the aIndex
while (nsnull != line && contentFrame == nsnull) {
nsIFrame* frame = line->mFirstChild;
PRInt32 n = line->mChildCount;
while (--n >= 0) {
nsRect bounds;
frame->GetRect(bounds);
if (aEvent->point.y >= bounds.y && aEvent->point.y < bounds.y+bounds.height) {
contentFrame = frame;
if (frame != gNearByFrame) {
if (gNearByFrame != nsnull) {
int x = 0;
}
aEvent->point.x = bounds.x+bounds.width-50;
gNearByFrame = frame;
return contentFrame->HandleDrag(aPresContext, aEvent, aEventStatus);
} else {
return NS_OK;
}
//break;
}
frame->GetNextSibling(frame);
}
line = line->mNext;
}
}
return NS_OK;
}
#endif