/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (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/MPL/ * * 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.org code. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "nsTextFragment.h" #include "nsWSRunObject.h" #include "nsIDOMNode.h" #include "nsHTMLEditor.h" #include "nsTextEditUtils.h" #include "nsIContent.h" #include "nsIDOMCharacterData.h" #include "nsCRT.h" #include "nsIRangeUtils.h" const PRUnichar nbsp = 160; static PRBool IsBlockNode(nsIDOMNode* node) { PRBool isBlock (PR_FALSE); nsHTMLEditor::NodeIsBlockStatic(node, &isBlock); return isBlock; } //- constructor / destructor ----------------------------------------------- nsWSRunObject::nsWSRunObject(nsHTMLEditor *aEd, nsIDOMNode *aNode, PRInt32 aOffset) : mNode(aNode) ,mOffset(aOffset) ,mPRE(PR_FALSE) ,mStartNode() ,mStartOffset(0) ,mStartReason(0) ,mStartReasonNode() ,mEndNode() ,mEndOffset(0) ,mEndReason(0) ,mEndReasonNode() ,mFirstNBSPNode() ,mFirstNBSPOffset(0) ,mLastNBSPNode() ,mLastNBSPOffset(0) ,mNodeArray() ,mStartRun(nsnull) ,mEndRun(nsnull) ,mHTMLEditor(aEd) { GetWSNodes(); GetRuns(); } nsWSRunObject::~nsWSRunObject() { ClearRuns(); } //-------------------------------------------------------------------------------------------- // public static methods //-------------------------------------------------------------------------------------------- nsresult nsWSRunObject::ScrubBlockBoundary(nsHTMLEditor *aHTMLEd, nsCOMPtr *aBlock, BlockBoundary aBoundary, PRInt32 *aOffset) { NS_ENSURE_TRUE(aBlock && aHTMLEd, NS_ERROR_NULL_POINTER); if ((aBoundary == kBlockStart) || (aBoundary == kBlockEnd)) return ScrubBlockBoundaryInner(aHTMLEd, aBlock, aBoundary); // else we are scrubbing an outer boundary - just before or after // a block element. NS_ENSURE_TRUE(aOffset, NS_ERROR_NULL_POINTER); nsAutoTrackDOMPoint tracker(aHTMLEd->mRangeUpdater, aBlock, aOffset); nsWSRunObject theWSObj(aHTMLEd, *aBlock, *aOffset); return theWSObj.Scrub(); } nsresult nsWSRunObject::PrepareToJoinBlocks(nsHTMLEditor *aHTMLEd, nsIDOMNode *aLeftParent, nsIDOMNode *aRightParent) { NS_ENSURE_TRUE(aLeftParent && aRightParent && aHTMLEd, NS_ERROR_NULL_POINTER); PRUint32 count; aHTMLEd->GetLengthOfDOMNode(aLeftParent, count); nsWSRunObject leftWSObj(aHTMLEd, aLeftParent, count); nsWSRunObject rightWSObj(aHTMLEd, aRightParent, 0); return leftWSObj.PrepareToDeleteRangePriv(&rightWSObj); } nsresult nsWSRunObject::PrepareToDeleteRange(nsHTMLEditor *aHTMLEd, nsCOMPtr *aStartNode, PRInt32 *aStartOffset, nsCOMPtr *aEndNode, PRInt32 *aEndOffset) { NS_ENSURE_TRUE(aStartNode && aEndNode && *aStartNode && *aEndNode && aStartOffset && aEndOffset && aHTMLEd, NS_ERROR_NULL_POINTER); nsAutoTrackDOMPoint trackerStart(aHTMLEd->mRangeUpdater, aStartNode, aStartOffset); nsAutoTrackDOMPoint trackerEnd(aHTMLEd->mRangeUpdater, aEndNode, aEndOffset); nsWSRunObject leftWSObj(aHTMLEd, *aStartNode, *aStartOffset); nsWSRunObject rightWSObj(aHTMLEd, *aEndNode, *aEndOffset); return leftWSObj.PrepareToDeleteRangePriv(&rightWSObj); } nsresult nsWSRunObject::PrepareToDeleteNode(nsHTMLEditor *aHTMLEd, nsIDOMNode *aNode) { NS_ENSURE_TRUE(aNode && aHTMLEd, NS_ERROR_NULL_POINTER); nsresult res = NS_OK; nsCOMPtr parent; PRInt32 offset; res = aHTMLEd->GetNodeLocation(aNode, address_of(parent), &offset); NS_ENSURE_SUCCESS(res, res); nsWSRunObject leftWSObj(aHTMLEd, parent, offset); nsWSRunObject rightWSObj(aHTMLEd, parent, offset+1); return leftWSObj.PrepareToDeleteRangePriv(&rightWSObj); } nsresult nsWSRunObject::PrepareToSplitAcrossBlocks(nsHTMLEditor *aHTMLEd, nsCOMPtr *aSplitNode, PRInt32 *aSplitOffset) { NS_ENSURE_TRUE(aSplitNode && aSplitOffset && *aSplitNode && aHTMLEd, NS_ERROR_NULL_POINTER); nsAutoTrackDOMPoint tracker(aHTMLEd->mRangeUpdater, aSplitNode, aSplitOffset); nsWSRunObject wsObj(aHTMLEd, *aSplitNode, *aSplitOffset); return wsObj.PrepareToSplitAcrossBlocksPriv(); } //-------------------------------------------------------------------------------------------- // public instance methods //-------------------------------------------------------------------------------------------- nsresult nsWSRunObject::InsertBreak(nsCOMPtr *aInOutParent, PRInt32 *aInOutOffset, nsCOMPtr *outBRNode, nsIEditor::EDirection aSelect) { // MOOSE: for now, we always assume non-PRE formatting. Fix this later. // meanwhile, the pre case is handled in WillInsertText in nsHTMLEditRules.cpp NS_ENSURE_TRUE(aInOutParent && aInOutOffset && outBRNode, NS_ERROR_NULL_POINTER); nsresult res = NS_OK; WSFragment *beforeRun, *afterRun; res = FindRun(*aInOutParent, *aInOutOffset, &beforeRun, PR_FALSE); res = FindRun(*aInOutParent, *aInOutOffset, &afterRun, PR_TRUE); { // some scoping for nsAutoTrackDOMPoint. This will track our insertion point // while we tweak any surrounding whitespace nsAutoTrackDOMPoint tracker(mHTMLEditor->mRangeUpdater, aInOutParent, aInOutOffset); // handle any changes needed to ws run after inserted br if (!afterRun) { // don't need to do anything. just insert break. ws won't change. } else if (afterRun->mType & eTrailingWS) { // don't need to do anything. just insert break. ws won't change. } else if (afterRun->mType & eLeadingWS) { // delete the leading ws that is after insertion point. We don't // have to (it would still not be significant after br), but it's // just more aesthetically pleasing to. res = DeleteChars(*aInOutParent, *aInOutOffset, afterRun->mEndNode, afterRun->mEndOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } else if (afterRun->mType == eNormalWS) { // need to determine if break at front of non-nbsp run. if so // convert run to nbsp. WSPoint thePoint; res = GetCharAfter(*aInOutParent, *aInOutOffset, &thePoint); if ( (NS_SUCCEEDED(res)) && thePoint.mTextNode && (nsCRT::IsAsciiSpace(thePoint.mChar)) ) { WSPoint prevPoint; res = GetCharBefore(thePoint, &prevPoint); if ( (NS_FAILED(res)) || (prevPoint.mTextNode && !nsCRT::IsAsciiSpace(prevPoint.mChar)) ) { // we are at start of non-nbsps. convert to a single nbsp. res = ConvertToNBSP(thePoint); NS_ENSURE_SUCCESS(res, res); } } } // handle any changes needed to ws run before inserted br if (!beforeRun) { // don't need to do anything. just insert break. ws won't change. } else if (beforeRun->mType & eLeadingWS) { // don't need to do anything. just insert break. ws won't change. } else if (beforeRun->mType & eTrailingWS) { // need to delete the trailing ws that is before insertion point, because it // would become significant after break inserted. res = DeleteChars(beforeRun->mStartNode, beforeRun->mStartOffset, *aInOutParent, *aInOutOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } else if (beforeRun->mType == eNormalWS) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation res = CheckTrailingNBSP(beforeRun, *aInOutParent, *aInOutOffset); NS_ENSURE_SUCCESS(res, res); } } // ready, aim, fire! return mHTMLEditor->CreateBRImpl(aInOutParent, aInOutOffset, outBRNode, aSelect); } nsresult nsWSRunObject::InsertText(const nsAString& aStringToInsert, nsCOMPtr *aInOutParent, PRInt32 *aInOutOffset, nsIDOMDocument *aDoc) { // MOOSE: for now, we always assume non-PRE formatting. Fix this later. // meanwhile, the pre case is handled in WillInsertText in nsHTMLEditRules.cpp // MOOSE: for now, just getting the ws logic straight. This implementation // is very slow. Will need to replace edit rules impl with a more efficient // text sink here that does the minimal amount of searching/replacing/copying NS_ENSURE_TRUE(aInOutParent && aInOutOffset && aDoc, NS_ERROR_NULL_POINTER); nsresult res = NS_OK; if (aStringToInsert.IsEmpty()) return res; // string copying sux. nsAutoString theString(aStringToInsert); WSFragment *beforeRun, *afterRun; res = FindRun(*aInOutParent, *aInOutOffset, &beforeRun, PR_FALSE); res = FindRun(*aInOutParent, *aInOutOffset, &afterRun, PR_TRUE); { // some scoping for nsAutoTrackDOMPoint. This will track our insertion point // while we tweak any surrounding whitespace nsAutoTrackDOMPoint tracker(mHTMLEditor->mRangeUpdater, aInOutParent, aInOutOffset); // handle any changes needed to ws run after inserted text if (!afterRun) { // don't need to do anything. just insert text. ws won't change. } else if (afterRun->mType & eTrailingWS) { // don't need to do anything. just insert text. ws won't change. } else if (afterRun->mType & eLeadingWS) { // delete the leading ws that is after insertion point, because it // would become significant after text inserted. res = DeleteChars(*aInOutParent, *aInOutOffset, afterRun->mEndNode, afterRun->mEndOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } else if (afterRun->mType == eNormalWS) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation res = CheckLeadingNBSP(afterRun, *aInOutParent, *aInOutOffset); NS_ENSURE_SUCCESS(res, res); } // handle any changes needed to ws run before inserted text if (!beforeRun) { // don't need to do anything. just insert text. ws won't change. } else if (beforeRun->mType & eLeadingWS) { // don't need to do anything. just insert text. ws won't change. } else if (beforeRun->mType & eTrailingWS) { // need to delete the trailing ws that is before insertion point, because it // would become significant after text inserted. res = DeleteChars(beforeRun->mStartNode, beforeRun->mStartOffset, *aInOutParent, *aInOutOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } else if (beforeRun->mType == eNormalWS) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation res = CheckTrailingNBSP(beforeRun, *aInOutParent, *aInOutOffset); NS_ENSURE_SUCCESS(res, res); } } // next up, tweak head and tail of string as needed. // first the head: // there are a variety of circumstances that would require us to convert a // leading ws char into an nbsp: if (nsCRT::IsAsciiSpace(theString[0])) { // we have a leading space if (beforeRun) { if (beforeRun->mType & eLeadingWS) { theString.SetCharAt(nbsp, 0); } else if (beforeRun->mType & eNormalWS) { WSPoint wspoint; res = GetCharBefore(*aInOutParent, *aInOutOffset, &wspoint); if (NS_SUCCEEDED(res) && wspoint.mTextNode && nsCRT::IsAsciiSpace(wspoint.mChar)) { theString.SetCharAt(nbsp, 0); } } } else { if ((mStartReason & eBlock) || (mStartReason == eBreak)) { theString.SetCharAt(nbsp, 0); } } } // then the tail PRUint32 lastCharIndex = theString.Length()-1; if (nsCRT::IsAsciiSpace(theString[lastCharIndex])) { // we have a leading space if (afterRun) { if (afterRun->mType & eTrailingWS) { theString.SetCharAt(nbsp, lastCharIndex); } else if (afterRun->mType & eNormalWS) { WSPoint wspoint; res = GetCharAfter(*aInOutParent, *aInOutOffset, &wspoint); if (NS_SUCCEEDED(res) && wspoint.mTextNode && nsCRT::IsAsciiSpace(wspoint.mChar)) { theString.SetCharAt(nbsp, lastCharIndex); } } } else { if ((mEndReason & eBlock)) { theString.SetCharAt(nbsp, lastCharIndex); } } } // next scan string for adjacent ws and convert to nbsp/space combos // MOOSE: don't need to convert tabs here since that is done by WillInsertText() // before we are called. Eventually, all that logic will be pushed down into // here and made more efficient. PRUint32 j; PRBool prevWS = PR_FALSE; for (j=0; j<=lastCharIndex; j++) { if (nsCRT::IsAsciiSpace(theString[j])) { if (prevWS) { theString.SetCharAt(nbsp, j-1); // j-1 can't be negative because prevWS starts out false } else { prevWS = PR_TRUE; } } else { prevWS = PR_FALSE; } } // ready, aim, fire! res = mHTMLEditor->InsertTextImpl(theString, aInOutParent, aInOutOffset, aDoc); return NS_OK; } nsresult nsWSRunObject::DeleteWSBackward() { nsresult res = NS_OK; WSPoint point; res = GetCharBefore(mNode, mOffset, &point); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(point.mTextNode, NS_OK); // nothing to delete if (mPRE) // easy case, preformatted ws { if (nsCRT::IsAsciiSpace(point.mChar) || (point.mChar == nbsp)) { nsCOMPtr node(do_QueryInterface(point.mTextNode)); PRInt32 startOffset = point.mOffset; PRInt32 endOffset = point.mOffset+1; return DeleteChars(node, startOffset, node, endOffset); } } // callers job to insure that previous char is really ws. // If it is normal ws, we need to delete the whole run if (nsCRT::IsAsciiSpace(point.mChar)) { nsCOMPtr startNode, endNode, node(do_QueryInterface(point.mTextNode)); PRInt32 startOffset, endOffset; res = GetAsciiWSBounds(eBoth, node, point.mOffset+1, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // adjust surrounding ws res = nsWSRunObject::PrepareToDeleteRange(mHTMLEditor, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // finally, delete that ws return DeleteChars(startNode, startOffset, endNode, endOffset); } else if (point.mChar == nbsp) { nsCOMPtr node(do_QueryInterface(point.mTextNode)); // adjust surrounding ws PRInt32 startOffset = point.mOffset; PRInt32 endOffset = point.mOffset+1; res = nsWSRunObject::PrepareToDeleteRange(mHTMLEditor, address_of(node), &startOffset, address_of(node), &endOffset); NS_ENSURE_SUCCESS(res, res); // finally, delete that ws return DeleteChars(node, startOffset, node, endOffset); } return NS_OK; } nsresult nsWSRunObject::DeleteWSForward() { nsresult res = NS_OK; WSPoint point; res = GetCharAfter(mNode, mOffset, &point); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(point.mTextNode, NS_OK); // nothing to delete if (mPRE) // easy case, preformatted ws { if (nsCRT::IsAsciiSpace(point.mChar) || (point.mChar == nbsp)) { nsCOMPtr node(do_QueryInterface(point.mTextNode)); PRInt32 startOffset = point.mOffset; PRInt32 endOffset = point.mOffset+1; return DeleteChars(node, startOffset, node, endOffset); } } // callers job to insure that next char is really ws. // If it is normal ws, we need to delete the whole run if (nsCRT::IsAsciiSpace(point.mChar)) { nsCOMPtr startNode, endNode, node(do_QueryInterface(point.mTextNode)); PRInt32 startOffset, endOffset; res = GetAsciiWSBounds(eBoth, node, point.mOffset+1, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // adjust surrounding ws res = nsWSRunObject::PrepareToDeleteRange(mHTMLEditor, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // finally, delete that ws return DeleteChars(startNode, startOffset, endNode, endOffset); } else if (point.mChar == nbsp) { nsCOMPtr node(do_QueryInterface(point.mTextNode)); // adjust surrounding ws PRInt32 startOffset = point.mOffset; PRInt32 endOffset = point.mOffset+1; res = nsWSRunObject::PrepareToDeleteRange(mHTMLEditor, address_of(node), &startOffset, address_of(node), &endOffset); NS_ENSURE_SUCCESS(res, res); // finally, delete that ws return DeleteChars(node, startOffset, node, endOffset); } return NS_OK; } nsresult nsWSRunObject::PriorVisibleNode(nsIDOMNode *aNode, PRInt32 aOffset, nsCOMPtr *outVisNode, PRInt32 *outVisOffset, PRInt16 *outType) { // Find first visible thing before the point. position outVisNode/outVisOffset // just _after_ that thing. If we don't find anything return start of ws. NS_ENSURE_TRUE(aNode && outVisNode && outVisOffset && outType, NS_ERROR_NULL_POINTER); *outType = eNone; WSFragment *run; FindRun(aNode, aOffset, &run, PR_FALSE); // is there a visible run there or earlier? while (run) { if (run->mType == eNormalWS) { WSPoint point; GetCharBefore(aNode, aOffset, &point); if (point.mTextNode) { *outVisNode = do_QueryInterface(point.mTextNode); *outVisOffset = point.mOffset+1; if (nsCRT::IsAsciiSpace(point.mChar) || (point.mChar==nbsp)) { *outType = eNormalWS; } else if (!point.mChar) { // MOOSE: not possible? *outType = eNone; } else { *outType = eText; } return NS_OK; } // else if no text node then keep looking. We should eventually fall out of loop } run = run->mLeft; } // if we get here then nothing in ws data to find. return start reason *outVisNode = mStartReasonNode; *outVisOffset = mStartOffset; // this really isn't meaningful if mStartReasonNode!=mStartNode *outType = mStartReason; return NS_OK; } nsresult nsWSRunObject::NextVisibleNode (nsIDOMNode *aNode, PRInt32 aOffset, nsCOMPtr *outVisNode, PRInt32 *outVisOffset, PRInt16 *outType) { // Find first visible thing after the point. position outVisNode/outVisOffset // just _before_ that thing. If we don't find anything return end of ws. NS_ENSURE_TRUE(aNode && outVisNode && outVisOffset && outType, NS_ERROR_NULL_POINTER); WSFragment *run; FindRun(aNode, aOffset, &run, PR_TRUE); // is there a visible run there or later? while (run) { if (run->mType == eNormalWS) { WSPoint point; GetCharAfter(aNode, aOffset, &point); if (point.mTextNode) { *outVisNode = do_QueryInterface(point.mTextNode); *outVisOffset = point.mOffset; if (nsCRT::IsAsciiSpace(point.mChar) || (point.mChar==nbsp)) { *outType = eNormalWS; } else if (!point.mChar) { // MOOSE: not possible? *outType = eNone; } else { *outType = eText; } return NS_OK; } // else if no text node then keep looking. We should eventually fall out of loop } run = run->mRight; } // if we get here then nothing in ws data to find. return end reason *outVisNode = mEndReasonNode; *outVisOffset = mEndOffset; // this really isn't meaningful if mEndReasonNode!=mEndNode *outType = mEndReason; return NS_OK; } nsresult nsWSRunObject::AdjustWhitespace() { // this routine examines a run of ws and tries to get rid of some unneeded nbsp's, // replacing them with regualr ascii space if possible. Keeping things simple // for now and just trying to fix up the trailing ws in the run. NS_ENSURE_TRUE(mLastNBSPNode, NS_OK); // nothing to do! nsresult res = NS_OK; WSFragment *curRun = mStartRun; while (curRun) { // look for normal ws run if (curRun->mType == eNormalWS) { res = CheckTrailingNBSPOfRun(curRun); break; } curRun = curRun->mRight; } return res; } //-------------------------------------------------------------------------------------------- // protected methods //-------------------------------------------------------------------------------------------- already_AddRefed nsWSRunObject::GetWSBoundingParent() { NS_ENSURE_TRUE(mNode, nsnull); nsCOMPtr wsBoundingParent = mNode; while (!IsBlockNode(wsBoundingParent)) { nsCOMPtr parent; wsBoundingParent->GetParentNode(getter_AddRefs(parent)); if (!parent || !mHTMLEditor->IsEditable(parent)) break; wsBoundingParent.swap(parent); } return wsBoundingParent.forget(); } nsresult nsWSRunObject::GetWSNodes() { // collect up an array of nodes that are contiguous with the insertion point // and which contain only whitespace. Stop if you reach non-ws text or a new // block boundary. nsresult res = NS_OK; DOMPoint start(mNode, mOffset), end(mNode, mOffset); nsCOMPtr wsBoundingParent = GetWSBoundingParent(); // first look backwards to find preceding ws nodes if (mHTMLEditor->IsTextNode(mNode)) { nsCOMPtr textNode(do_QueryInterface(mNode)); const nsTextFragment *textFrag = textNode->GetText(); res = PrependNodeToList(mNode); NS_ENSURE_SUCCESS(res, res); if (mOffset) { PRInt32 pos; for (pos=mOffset-1; pos>=0; pos--) { // sanity bounds check the char position. bug 136165 if (PRUint32(pos) >= textFrag->GetLength()) { NS_NOTREACHED("looking beyond end of text fragment"); continue; } PRUnichar theChar = textFrag->CharAt(pos); if (!nsCRT::IsAsciiSpace(theChar)) { if (theChar != nbsp) { mStartNode = mNode; mStartOffset = pos+1; mStartReason = eText; mStartReasonNode = mNode; break; } // as we look backwards update our earliest found nbsp mFirstNBSPNode = mNode; mFirstNBSPOffset = pos; // also keep track of latest nbsp so far if (!mLastNBSPNode) { mLastNBSPNode = mNode; mLastNBSPOffset = pos; } } start.SetPoint(mNode,pos); } } } nsCOMPtr priorNode; while (!mStartNode) { // we haven't found the start of ws yet. Keep looking res = GetPreviousWSNode(start, wsBoundingParent, address_of(priorNode)); NS_ENSURE_SUCCESS(res, res); if (priorNode) { if (IsBlockNode(priorNode)) { start.GetPoint(mStartNode, mStartOffset); mStartReason = eOtherBlock; mStartReasonNode = priorNode; } else if (mHTMLEditor->IsTextNode(priorNode)) { res = PrependNodeToList(priorNode); NS_ENSURE_SUCCESS(res, res); nsCOMPtr textNode(do_QueryInterface(priorNode)); const nsTextFragment *textFrag; if (!textNode || !(textFrag = textNode->GetText())) { return NS_ERROR_NULL_POINTER; } PRUint32 len = textNode->TextLength(); if (len < 1) { // Zero length text node. Set start point to it // so we can get past it! start.SetPoint(priorNode,0); } else { PRInt32 pos; for (pos=len-1; pos>=0; pos--) { // sanity bounds check the char position. bug 136165 if (PRUint32(pos) >= textFrag->GetLength()) { NS_NOTREACHED("looking beyond end of text fragment"); continue; } PRUnichar theChar = textFrag->CharAt(pos); if (!nsCRT::IsAsciiSpace(theChar)) { if (theChar != nbsp) { mStartNode = priorNode; mStartOffset = pos+1; mStartReason = eText; mStartReasonNode = priorNode; break; } // as we look backwards update our earliest found nbsp mFirstNBSPNode = priorNode; mFirstNBSPOffset = pos; // also keep track of latest nbsp so far if (!mLastNBSPNode) { mLastNBSPNode = priorNode; mLastNBSPOffset = pos; } } start.SetPoint(priorNode,pos); } } } else { // it's a break or a special node, like , that is not a block and not // a break but still serves as a terminator to ws runs. start.GetPoint(mStartNode, mStartOffset); if (nsTextEditUtils::IsBreak(priorNode)) mStartReason = eBreak; else mStartReason = eSpecial; mStartReasonNode = priorNode; } } else { // no prior node means we exhausted wsBoundingParent start.GetPoint(mStartNode, mStartOffset); mStartReason = eThisBlock; mStartReasonNode = wsBoundingParent; } } // then look ahead to find following ws nodes if (mHTMLEditor->IsTextNode(mNode)) { // don't need to put it on list. it already is from code above nsCOMPtr textNode(do_QueryInterface(mNode)); const nsTextFragment *textFrag = textNode->GetText(); PRUint32 len = textNode->TextLength(); if (PRUint16(mOffset)=textFrag->GetLength())) { NS_NOTREACHED("looking beyond end of text fragment"); continue; } PRUnichar theChar = textFrag->CharAt(pos); if (!nsCRT::IsAsciiSpace(theChar)) { if (theChar != nbsp) { mEndNode = mNode; mEndOffset = pos; mEndReason = eText; mEndReasonNode = mNode; break; } // as we look forwards update our latest found nbsp mLastNBSPNode = mNode; mLastNBSPOffset = pos; // also keep track of earliest nbsp so far if (!mFirstNBSPNode) { mFirstNBSPNode = mNode; mFirstNBSPOffset = pos; } } end.SetPoint(mNode,pos+1); } } } nsCOMPtr nextNode; while (!mEndNode) { // we haven't found the end of ws yet. Keep looking res = GetNextWSNode(end, wsBoundingParent, address_of(nextNode)); NS_ENSURE_SUCCESS(res, res); if (nextNode) { if (IsBlockNode(nextNode)) { // we encountered a new block. therefore no more ws. end.GetPoint(mEndNode, mEndOffset); mEndReason = eOtherBlock; mEndReasonNode = nextNode; } else if (mHTMLEditor->IsTextNode(nextNode)) { res = AppendNodeToList(nextNode); NS_ENSURE_SUCCESS(res, res); nsCOMPtr textNode(do_QueryInterface(nextNode)); const nsTextFragment *textFrag; if (!textNode || !(textFrag = textNode->GetText())) { return NS_ERROR_NULL_POINTER; } PRUint32 len = textNode->TextLength(); if (len < 1) { // Zero length text node. Set end point to it // so we can get past it! end.SetPoint(nextNode,0); } else { PRInt32 pos; for (pos=0; PRUint32(pos)= textFrag->GetLength()) { NS_NOTREACHED("looking beyond end of text fragment"); continue; } PRUnichar theChar = textFrag->CharAt(pos); if (!nsCRT::IsAsciiSpace(theChar)) { if (theChar != nbsp) { mEndNode = nextNode; mEndOffset = pos; mEndReason = eText; mEndReasonNode = nextNode; break; } // as we look forwards update our latest found nbsp mLastNBSPNode = nextNode; mLastNBSPOffset = pos; // also keep track of earliest nbsp so far if (!mFirstNBSPNode) { mFirstNBSPNode = nextNode; mFirstNBSPOffset = pos; } } end.SetPoint(nextNode,pos+1); } } } else { // we encountered a break or a special node, like , // that is not a block and not a break but still // serves as a terminator to ws runs. end.GetPoint(mEndNode, mEndOffset); if (nsTextEditUtils::IsBreak(nextNode)) mEndReason = eBreak; else mEndReason = eSpecial; mEndReasonNode = nextNode; } } else { // no next node means we exhausted wsBoundingParent end.GetPoint(mEndNode, mEndOffset); mEndReason = eThisBlock; mEndReasonNode = wsBoundingParent; } } return NS_OK; } nsresult nsWSRunObject::GetRuns() { ClearRuns(); // handle some easy cases first mHTMLEditor->IsPreformatted(mNode, &mPRE); // if it's preformatedd, or if we are surrounded by text or special, it's all one // big normal ws run if ( mPRE || (((mStartReason == eText) || (mStartReason == eSpecial)) && ((mEndReason == eText) || (mEndReason == eSpecial) || (mEndReason == eBreak))) ) { return MakeSingleWSRun(eNormalWS); } // if we are before or after a block (or after a break), and there are no nbsp's, // then it's all non-rendering ws. if ( !(mFirstNBSPNode || mLastNBSPNode) && ( (mStartReason & eBlock) || (mStartReason == eBreak) || (mEndReason & eBlock) ) ) { PRInt16 wstype = eNone; if ((mStartReason & eBlock) || (mStartReason == eBreak)) wstype = eLeadingWS; if (mEndReason & eBlock) wstype |= eTrailingWS; return MakeSingleWSRun(wstype); } // otherwise a little trickier. shucks. mStartRun = new WSFragment(); NS_ENSURE_TRUE(mStartRun, NS_ERROR_NULL_POINTER); mStartRun->mStartNode = mStartNode; mStartRun->mStartOffset = mStartOffset; if ( (mStartReason & eBlock) || (mStartReason == eBreak) ) { // set up mStartRun mStartRun->mType = eLeadingWS; mStartRun->mEndNode = mFirstNBSPNode; mStartRun->mEndOffset = mFirstNBSPOffset; mStartRun->mLeftType = mStartReason; mStartRun->mRightType = eNormalWS; // set up next run WSFragment *normalRun = new WSFragment(); NS_ENSURE_TRUE(normalRun, NS_ERROR_NULL_POINTER); mStartRun->mRight = normalRun; normalRun->mType = eNormalWS; normalRun->mStartNode = mFirstNBSPNode; normalRun->mStartOffset = mFirstNBSPOffset; normalRun->mLeftType = eLeadingWS; normalRun->mLeft = mStartRun; if (mEndReason != eBlock) { // then no trailing ws. this normal run ends the overall ws run. normalRun->mRightType = mEndReason; normalRun->mEndNode = mEndNode; normalRun->mEndOffset = mEndOffset; mEndRun = normalRun; } else { // we might have trailing ws. // it so happens that *if* there is an nbsp at end, {mEndNode,mEndOffset-1} // will point to it, even though in general start/end points not // guaranteed to be in text nodes. if ((mLastNBSPNode == mEndNode) && (mLastNBSPOffset == (mEndOffset-1))) { // normal ws runs right up to adjacent block (nbsp next to block) normalRun->mRightType = mEndReason; normalRun->mEndNode = mEndNode; normalRun->mEndOffset = mEndOffset; mEndRun = normalRun; } else { normalRun->mEndNode = mLastNBSPNode; normalRun->mEndOffset = mLastNBSPOffset+1; normalRun->mRightType = eTrailingWS; // set up next run WSFragment *lastRun = new WSFragment(); NS_ENSURE_TRUE(lastRun, NS_ERROR_NULL_POINTER); lastRun->mType = eTrailingWS; lastRun->mStartNode = mLastNBSPNode; lastRun->mStartOffset = mLastNBSPOffset+1; lastRun->mEndNode = mEndNode; lastRun->mEndOffset = mEndOffset; lastRun->mLeftType = eNormalWS; lastRun->mLeft = normalRun; lastRun->mRightType = mEndReason; mEndRun = lastRun; normalRun->mRight = lastRun; } } } else // mStartReason is not eBlock or eBreak { // set up mStartRun mStartRun->mType = eNormalWS; mStartRun->mEndNode = mLastNBSPNode; mStartRun->mEndOffset = mLastNBSPOffset+1; mStartRun->mLeftType = mStartReason; // we might have trailing ws. // it so happens that *if* there is an nbsp at end, {mEndNode,mEndOffset-1} // will point to it, even though in general start/end points not // guaranteed to be in text nodes. if ((mLastNBSPNode == mEndNode) && (mLastNBSPOffset == (mEndOffset-1))) { mStartRun->mRightType = mEndReason; mStartRun->mEndNode = mEndNode; mStartRun->mEndOffset = mEndOffset; mEndRun = mStartRun; } else { // set up next run WSFragment *lastRun = new WSFragment(); NS_ENSURE_TRUE(lastRun, NS_ERROR_NULL_POINTER); lastRun->mType = eTrailingWS; lastRun->mStartNode = mLastNBSPNode; lastRun->mStartOffset = mLastNBSPOffset+1; lastRun->mLeftType = eNormalWS; lastRun->mLeft = mStartRun; lastRun->mRightType = mEndReason; mEndRun = lastRun; mStartRun->mRight = lastRun; mStartRun->mRightType = eTrailingWS; } } return NS_OK; } void nsWSRunObject::ClearRuns() { WSFragment *tmp, *run; run = mStartRun; while (run) { tmp = run->mRight; delete run; run = tmp; } mStartRun = 0; mEndRun = 0; } nsresult nsWSRunObject::MakeSingleWSRun(PRInt16 aType) { mStartRun = new WSFragment(); NS_ENSURE_TRUE(mStartRun, NS_ERROR_NULL_POINTER); mStartRun->mStartNode = mStartNode; mStartRun->mStartOffset = mStartOffset; mStartRun->mType = aType; mStartRun->mEndNode = mEndNode; mStartRun->mEndOffset = mEndOffset; mStartRun->mLeftType = mStartReason; mStartRun->mRightType = mEndReason; mEndRun = mStartRun; return NS_OK; } nsresult nsWSRunObject::PrependNodeToList(nsIDOMNode *aNode) { NS_ENSURE_TRUE(aNode, NS_ERROR_NULL_POINTER); if (!mNodeArray.InsertObjectAt(aNode, 0)) return NS_ERROR_FAILURE; return NS_OK; } nsresult nsWSRunObject::AppendNodeToList(nsIDOMNode *aNode) { NS_ENSURE_TRUE(aNode, NS_ERROR_NULL_POINTER); if (!mNodeArray.AppendObject(aNode)) return NS_ERROR_FAILURE; return NS_OK; } nsresult nsWSRunObject::GetPreviousWSNode(nsIDOMNode *aStartNode, nsIDOMNode *aBlockParent, nsCOMPtr *aPriorNode) { // can't really recycle various getnext/prior routines because we // have special needs here. Need to step into inline containers but // not block containers. NS_ENSURE_TRUE(aStartNode && aBlockParent && aPriorNode, NS_ERROR_NULL_POINTER); nsresult res = aStartNode->GetPreviousSibling(getter_AddRefs(*aPriorNode)); NS_ENSURE_SUCCESS(res, res); nsCOMPtr temp, curNode = aStartNode; while (!*aPriorNode) { // we have exhausted nodes in parent of aStartNode. res = curNode->GetParentNode(getter_AddRefs(temp)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(temp, NS_ERROR_NULL_POINTER); if (temp == aBlockParent) { // we have exhausted nodes in the block parent. The convention here is to return null. *aPriorNode = nsnull; return NS_OK; } // we have a parent: look for previous sibling res = temp->GetPreviousSibling(getter_AddRefs(*aPriorNode)); NS_ENSURE_SUCCESS(res, res); curNode = temp; } // we have a prior node. If it's a block, return it. if (IsBlockNode(*aPriorNode)) return NS_OK; // else if it's a container, get deep rightmost child else if (mHTMLEditor->IsContainer(*aPriorNode)) { temp = mHTMLEditor->GetRightmostChild(*aPriorNode); if (temp) *aPriorNode = temp; return NS_OK; } // else return the node itself return NS_OK; } nsresult nsWSRunObject::GetPreviousWSNode(DOMPoint aPoint, nsIDOMNode *aBlockParent, nsCOMPtr *aPriorNode) { nsCOMPtr node; PRInt32 offset; aPoint.GetPoint(node, offset); return GetPreviousWSNode(node,offset,aBlockParent,aPriorNode); } nsresult nsWSRunObject::GetPreviousWSNode(nsIDOMNode *aStartNode, PRInt16 aOffset, nsIDOMNode *aBlockParent, nsCOMPtr *aPriorNode) { // can't really recycle various getnext/prior routines because we // have special needs here. Need to step into inline containers but // not block containers. NS_ENSURE_TRUE(aStartNode && aBlockParent && aPriorNode, NS_ERROR_NULL_POINTER); *aPriorNode = 0; if (mHTMLEditor->IsTextNode(aStartNode)) return GetPreviousWSNode(aStartNode, aBlockParent, aPriorNode); if (!mHTMLEditor->IsContainer(aStartNode)) return GetPreviousWSNode(aStartNode, aBlockParent, aPriorNode); if (!aOffset) { if (aStartNode==aBlockParent) { // we are at start of the block. return NS_OK; } // we are at start of non-block container return GetPreviousWSNode(aStartNode, aBlockParent, aPriorNode); } nsCOMPtr startContent( do_QueryInterface(aStartNode) ); NS_ENSURE_STATE(startContent); nsIContent *priorContent = startContent->GetChildAt(aOffset - 1); NS_ENSURE_TRUE(priorContent, NS_ERROR_NULL_POINTER); *aPriorNode = do_QueryInterface(priorContent); // we have a prior node. If it's a block, return it. if (IsBlockNode(*aPriorNode)) return NS_OK; // else if it's a container, get deep rightmost child else if (mHTMLEditor->IsContainer(*aPriorNode)) { nsCOMPtr temp; temp = mHTMLEditor->GetRightmostChild(*aPriorNode); if (temp) *aPriorNode = temp; return NS_OK; } // else return the node itself return NS_OK; } nsresult nsWSRunObject::GetNextWSNode(nsIDOMNode *aStartNode, nsIDOMNode *aBlockParent, nsCOMPtr *aNextNode) { // can't really recycle various getnext/prior routines because we // have special needs here. Need to step into inline containers but // not block containers. NS_ENSURE_TRUE(aStartNode && aBlockParent && aNextNode, NS_ERROR_NULL_POINTER); *aNextNode = 0; nsresult res = aStartNode->GetNextSibling(getter_AddRefs(*aNextNode)); NS_ENSURE_SUCCESS(res, res); nsCOMPtr temp, curNode = aStartNode; while (!*aNextNode) { // we have exhausted nodes in parent of aStartNode. res = curNode->GetParentNode(getter_AddRefs(temp)); NS_ENSURE_SUCCESS(res, res); NS_ENSURE_TRUE(temp, NS_ERROR_NULL_POINTER); if (temp == aBlockParent) { // we have exhausted nodes in the block parent. The convention // here is to return null. *aNextNode = nsnull; return NS_OK; } // we have a parent: look for next sibling res = temp->GetNextSibling(getter_AddRefs(*aNextNode)); NS_ENSURE_SUCCESS(res, res); curNode = temp; } // we have a next node. If it's a block, return it. if (IsBlockNode(*aNextNode)) return NS_OK; // else if it's a container, get deep leftmost child else if (mHTMLEditor->IsContainer(*aNextNode)) { temp = mHTMLEditor->GetLeftmostChild(*aNextNode); if (temp) *aNextNode = temp; return NS_OK; } // else return the node itself return NS_OK; } nsresult nsWSRunObject::GetNextWSNode(DOMPoint aPoint, nsIDOMNode *aBlockParent, nsCOMPtr *aNextNode) { nsCOMPtr node; PRInt32 offset; aPoint.GetPoint(node, offset); return GetNextWSNode(node,offset,aBlockParent,aNextNode); } nsresult nsWSRunObject::GetNextWSNode(nsIDOMNode *aStartNode, PRInt16 aOffset, nsIDOMNode *aBlockParent, nsCOMPtr *aNextNode) { // can't really recycle various getnext/prior routines because we have special needs // here. Need to step into inline containers but not block containers. NS_ENSURE_TRUE(aStartNode && aBlockParent && aNextNode, NS_ERROR_NULL_POINTER); *aNextNode = 0; if (mHTMLEditor->IsTextNode(aStartNode)) return GetNextWSNode(aStartNode, aBlockParent, aNextNode); if (!mHTMLEditor->IsContainer(aStartNode)) return GetNextWSNode(aStartNode, aBlockParent, aNextNode); nsCOMPtr startContent( do_QueryInterface(aStartNode) ); NS_ENSURE_STATE(startContent); nsIContent *nextContent = startContent->GetChildAt(aOffset); if (!nextContent) { if (aStartNode==aBlockParent) { // we are at end of the block. return NS_OK; } // we are at end of non-block container return GetNextWSNode(aStartNode, aBlockParent, aNextNode); } *aNextNode = do_QueryInterface(nextContent); // we have a next node. If it's a block, return it. if (IsBlockNode(*aNextNode)) return NS_OK; // else if it's a container, get deep leftmost child else if (mHTMLEditor->IsContainer(*aNextNode)) { nsCOMPtr temp; temp = mHTMLEditor->GetLeftmostChild(*aNextNode); if (temp) *aNextNode = temp; return NS_OK; } // else return the node itself return NS_OK; } nsresult nsWSRunObject::PrepareToDeleteRangePriv(nsWSRunObject* aEndObject) { // this routine adjust whitespace before *this* and after aEndObject // in preperation for the two areas to become adjacent after the // intervening content is deleted. It's overly agressive right // now. There might be a block boundary remaining between them after // the deletion, in which case these adjstments are unneeded (though // I don't think they can ever be harmful?) NS_ENSURE_TRUE(aEndObject, NS_ERROR_NULL_POINTER); nsresult res = NS_OK; // get the runs before and after selection WSFragment *beforeRun, *afterRun; res = FindRun(mNode, mOffset, &beforeRun, PR_FALSE); NS_ENSURE_SUCCESS(res, res); res = aEndObject->FindRun(aEndObject->mNode, aEndObject->mOffset, &afterRun, PR_TRUE); NS_ENSURE_SUCCESS(res, res); // trim after run of any leading ws if (afterRun && (afterRun->mType & eLeadingWS)) { res = aEndObject->DeleteChars(aEndObject->mNode, aEndObject->mOffset, afterRun->mEndNode, afterRun->mEndOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } // adjust normal ws in afterRun if needed if (afterRun && (afterRun->mType == eNormalWS) && !aEndObject->mPRE) { if ( (beforeRun && (beforeRun->mType & eLeadingWS)) || (!beforeRun && ((mStartReason & eBlock) || (mStartReason == eBreak))) ) { // make sure leading char of following ws is an nbsp, so that it will show up WSPoint point; aEndObject->GetCharAfter(aEndObject->mNode, aEndObject->mOffset, &point); if (point.mTextNode && nsCRT::IsAsciiSpace(point.mChar)) { res = aEndObject->ConvertToNBSP(point, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } } } // trim before run of any trailing ws if (beforeRun && (beforeRun->mType & eTrailingWS)) { res = DeleteChars(beforeRun->mStartNode, beforeRun->mStartOffset, mNode, mOffset, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } else if (beforeRun && (beforeRun->mType == eNormalWS) && !mPRE) { if ( (afterRun && (afterRun->mType & eTrailingWS)) || (afterRun && (afterRun->mType == eNormalWS)) || (!afterRun && ((aEndObject->mEndReason & eBlock))) ) { // make sure trailing char of starting ws is an nbsp, so that it will show up WSPoint point; GetCharBefore(mNode, mOffset, &point); if (point.mTextNode && nsCRT::IsAsciiSpace(point.mChar)) { nsCOMPtr wsStartNode, wsEndNode; PRInt32 wsStartOffset, wsEndOffset; res = GetAsciiWSBounds(eBoth, mNode, mOffset, address_of(wsStartNode), &wsStartOffset, address_of(wsEndNode), &wsEndOffset); NS_ENSURE_SUCCESS(res, res); point.mTextNode = do_QueryInterface(wsStartNode); if (!point.mTextNode->IsNodeOfType(nsINode::eDATA_NODE)) { // Not sure if this is needed, but it'll maintain the same // functionality point.mTextNode = nsnull; } point.mOffset = wsStartOffset; res = ConvertToNBSP(point, eOutsideUserSelectAll); NS_ENSURE_SUCCESS(res, res); } } } return res; } nsresult nsWSRunObject::PrepareToSplitAcrossBlocksPriv() { // used to prepare ws to be split across two blocks. The main issue // here is make sure normalWS doesn't end up becoming non-significant // leading or trailing ws after the split. nsresult res = NS_OK; // get the runs before and after selection WSFragment *beforeRun, *afterRun; res = FindRun(mNode, mOffset, &beforeRun, PR_FALSE); NS_ENSURE_SUCCESS(res, res); res = FindRun(mNode, mOffset, &afterRun, PR_TRUE); // adjust normal ws in afterRun if needed if (afterRun && (afterRun->mType == eNormalWS)) { // make sure leading char of following ws is an nbsp, so that it will show up WSPoint point; GetCharAfter(mNode, mOffset, &point); if (point.mTextNode && nsCRT::IsAsciiSpace(point.mChar)) { res = ConvertToNBSP(point); NS_ENSURE_SUCCESS(res, res); } } // adjust normal ws in beforeRun if needed if (beforeRun && (beforeRun->mType == eNormalWS)) { // make sure trailing char of starting ws is an nbsp, so that it will show up WSPoint point; GetCharBefore(mNode, mOffset, &point); if (point.mTextNode && nsCRT::IsAsciiSpace(point.mChar)) { nsCOMPtr wsStartNode, wsEndNode; PRInt32 wsStartOffset, wsEndOffset; res = GetAsciiWSBounds(eBoth, mNode, mOffset, address_of(wsStartNode), &wsStartOffset, address_of(wsEndNode), &wsEndOffset); NS_ENSURE_SUCCESS(res, res); point.mTextNode = do_QueryInterface(wsStartNode); if (!point.mTextNode->IsNodeOfType(nsINode::eDATA_NODE)) { // Not sure if this is needed, but it'll maintain the same // functionality point.mTextNode = nsnull; } point.mOffset = wsStartOffset; res = ConvertToNBSP(point); NS_ENSURE_SUCCESS(res, res); } } return res; } nsresult nsWSRunObject::DeleteChars(nsIDOMNode *aStartNode, PRInt32 aStartOffset, nsIDOMNode *aEndNode, PRInt32 aEndOffset, AreaRestriction aAR) { // MOOSE: this routine needs to be modified to preserve the integrity of the // wsFragment info. NS_ENSURE_TRUE(aStartNode && aEndNode, NS_ERROR_NULL_POINTER); if (aAR == eOutsideUserSelectAll) { nsCOMPtr san = mHTMLEditor->FindUserSelectAllNode(aStartNode); if (san) return NS_OK; if (aStartNode != aEndNode) { san = mHTMLEditor->FindUserSelectAllNode(aEndNode); if (san) return NS_OK; } } if ((aStartNode == aEndNode) && (aStartOffset == aEndOffset)) return NS_OK; // nothing to delete nsresult res = NS_OK; PRInt32 idx = mNodeArray.IndexOf(aStartNode); if (idx==-1) idx = 0; // if our strarting point wasn't one of our ws text nodes, // then just go through them from the beginning. nsCOMPtr node; nsCOMPtr textnode; nsCOMPtr range; if (aStartNode == aEndNode) { textnode = do_QueryInterface(aStartNode); if (textnode) { return mHTMLEditor->DeleteText(textnode, (PRUint32)aStartOffset, (PRUint32)(aEndOffset-aStartOffset)); } } PRInt32 count = mNodeArray.Count(); while (idx < count) { node = mNodeArray[idx]; if (!node) break; // we ran out of ws nodes; must have been deleting to end if (node == aStartNode) { textnode = do_QueryInterface(node); PRUint32 len; textnode->GetLength(&len); if (PRUint32(aStartOffset)DeleteText(textnode, (PRUint32)aStartOffset, len-aStartOffset); NS_ENSURE_SUCCESS(res, res); } } else if (node == aEndNode) { if (aEndOffset) { textnode = do_QueryInterface(node); res = mHTMLEditor->DeleteText(textnode, 0, (PRUint32)aEndOffset); NS_ENSURE_SUCCESS(res, res); } break; } else { if (!range) { range = do_CreateInstance("@mozilla.org/content/range;1"); NS_ENSURE_TRUE(range, NS_ERROR_OUT_OF_MEMORY); res = range->SetStart(aStartNode, aStartOffset); NS_ENSURE_SUCCESS(res, res); res = range->SetEnd(aEndNode, aEndOffset); NS_ENSURE_SUCCESS(res, res); } PRBool nodeBefore, nodeAfter; nsCOMPtr content (do_QueryInterface(node)); res = mHTMLEditor->sRangeHelper->CompareNodeToRange(content, range, &nodeBefore, &nodeAfter); NS_ENSURE_SUCCESS(res, res); if (nodeAfter) { break; } if (!nodeBefore) { res = mHTMLEditor->DeleteNode(node); NS_ENSURE_SUCCESS(res, res); mNodeArray.RemoveObject(node); --count; --idx; } } idx++; } return res; } nsresult nsWSRunObject::GetCharAfter(nsIDOMNode *aNode, PRInt32 aOffset, WSPoint *outPoint) { NS_ENSURE_TRUE(aNode && outPoint, NS_ERROR_NULL_POINTER); PRInt32 idx = mNodeArray.IndexOf(aNode); if (idx == -1) { // use range comparisons to get right ws node return GetWSPointAfter(aNode, aOffset, outPoint); } else { // use wspoint version of GetCharAfter() WSPoint point(aNode,aOffset,0); return GetCharAfter(point, outPoint); } return NS_ERROR_FAILURE; } nsresult nsWSRunObject::GetCharBefore(nsIDOMNode *aNode, PRInt32 aOffset, WSPoint *outPoint) { NS_ENSURE_TRUE(aNode && outPoint, NS_ERROR_NULL_POINTER); PRInt32 idx = mNodeArray.IndexOf(aNode); if (idx == -1) { // use range comparisons to get right ws node return GetWSPointBefore(aNode, aOffset, outPoint); } else { // use wspoint version of GetCharBefore() WSPoint point(aNode,aOffset,0); return GetCharBefore(point, outPoint); } return NS_ERROR_FAILURE; } nsresult nsWSRunObject::GetCharAfter(WSPoint &aPoint, WSPoint *outPoint) { NS_ENSURE_TRUE(aPoint.mTextNode && outPoint, NS_ERROR_NULL_POINTER); outPoint->mTextNode = nsnull; outPoint->mOffset = 0; outPoint->mChar = 0; nsCOMPtr pointTextNode(do_QueryInterface(aPoint.mTextNode)); PRInt32 idx = mNodeArray.IndexOf(pointTextNode); if (idx == -1) return NS_OK; // can't find point, but it's not an error PRInt32 numNodes = mNodeArray.Count(); if (PRUint16(aPoint.mOffset) < aPoint.mTextNode->TextLength()) { *outPoint = aPoint; outPoint->mChar = GetCharAt(aPoint.mTextNode, aPoint.mOffset); } else if (idx < (PRInt32)(numNodes-1)) { nsIDOMNode* node = mNodeArray[idx+1]; NS_ENSURE_TRUE(node, NS_ERROR_FAILURE); outPoint->mTextNode = do_QueryInterface(node); if (!outPoint->mTextNode->IsNodeOfType(nsINode::eDATA_NODE)) { // Not sure if this is needed, but it'll maintain the same // functionality outPoint->mTextNode = nsnull; } outPoint->mOffset = 0; outPoint->mChar = GetCharAt(outPoint->mTextNode, 0); } return NS_OK; } nsresult nsWSRunObject::GetCharBefore(WSPoint &aPoint, WSPoint *outPoint) { NS_ENSURE_TRUE(aPoint.mTextNode && outPoint, NS_ERROR_NULL_POINTER); outPoint->mTextNode = nsnull; outPoint->mOffset = 0; outPoint->mChar = 0; nsCOMPtr pointTextNode(do_QueryInterface(aPoint.mTextNode)); PRInt32 idx = mNodeArray.IndexOf(pointTextNode); if (idx == -1) return NS_OK; // can't find point, but it's not an error if (aPoint.mOffset != 0) { *outPoint = aPoint; outPoint->mOffset--; outPoint->mChar = GetCharAt(aPoint.mTextNode, aPoint.mOffset-1); } else if (idx) { nsIDOMNode* node = mNodeArray[idx-1]; NS_ENSURE_TRUE(node, NS_ERROR_FAILURE); outPoint->mTextNode = do_QueryInterface(node); PRUint32 len = outPoint->mTextNode->TextLength(); if (len) { outPoint->mOffset = len-1; outPoint->mChar = GetCharAt(outPoint->mTextNode, len-1); } } return NS_OK; } nsresult nsWSRunObject::ConvertToNBSP(WSPoint aPoint, AreaRestriction aAR) { // MOOSE: this routine needs to be modified to preserve the integrity of the // wsFragment info. NS_ENSURE_TRUE(aPoint.mTextNode, NS_ERROR_NULL_POINTER); if (aAR == eOutsideUserSelectAll) { nsCOMPtr domnode = do_QueryInterface(aPoint.mTextNode); if (domnode) { nsCOMPtr san = mHTMLEditor->FindUserSelectAllNode(domnode); if (san) return NS_OK; } } nsCOMPtr textNode(do_QueryInterface(aPoint.mTextNode)); NS_ENSURE_TRUE(textNode, NS_ERROR_NULL_POINTER); nsCOMPtr node(do_QueryInterface(textNode)); // first, insert an nbsp nsAutoTxnsConserveSelection dontSpazMySelection(mHTMLEditor); nsAutoString nbspStr(nbsp); nsresult res = mHTMLEditor->InsertTextIntoTextNodeImpl(nbspStr, textNode, aPoint.mOffset, PR_TRUE); NS_ENSURE_SUCCESS(res, res); // next, find range of ws it will replace nsCOMPtr startNode, endNode; PRInt32 startOffset=0, endOffset=0; res = GetAsciiWSBounds(eAfter, node, aPoint.mOffset+1, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // finally, delete that replaced ws, if any if (startNode) { res = DeleteChars(startNode, startOffset, endNode, endOffset); } return res; } nsresult nsWSRunObject::GetAsciiWSBounds(PRInt16 aDir, nsIDOMNode *aNode, PRInt32 aOffset, nsCOMPtr *outStartNode, PRInt32 *outStartOffset, nsCOMPtr *outEndNode, PRInt32 *outEndOffset) { NS_ENSURE_TRUE(aNode && outStartNode && outEndNode, NS_ERROR_NULL_POINTER); nsCOMPtr startNode, endNode; PRInt32 startOffset=0, endOffset=0; nsresult res = NS_OK; if (aDir & eAfter) { WSPoint point, tmp; res = GetCharAfter(aNode, aOffset, &point); if (NS_SUCCEEDED(res) && point.mTextNode) { // we found a text node, at least endNode = do_QueryInterface(point.mTextNode); endOffset = point.mOffset; startNode = endNode; startOffset = endOffset; // scan ahead to end of ascii ws while (nsCRT::IsAsciiSpace(point.mChar)) { endNode = do_QueryInterface(point.mTextNode); point.mOffset++; // endOffset is _after_ ws endOffset = point.mOffset; tmp = point; res = GetCharAfter(tmp, &point); if (NS_FAILED(res) || !point.mTextNode) break; } } } if (aDir & eBefore) { WSPoint point, tmp; res = GetCharBefore(aNode, aOffset, &point); if (NS_SUCCEEDED(res) && point.mTextNode) { // we found a text node, at least startNode = do_QueryInterface(point.mTextNode); startOffset = point.mOffset+1; if (!endNode) { endNode = startNode; endOffset = startOffset; } // scan back to start of ascii ws while (nsCRT::IsAsciiSpace(point.mChar)) { startNode = do_QueryInterface(point.mTextNode); startOffset = point.mOffset; tmp = point; res = GetCharBefore(tmp, &point); if (NS_FAILED(res) || !point.mTextNode) break; } } } *outStartNode = startNode; *outStartOffset = startOffset; *outEndNode = endNode; *outEndOffset = endOffset; return NS_OK; } nsresult nsWSRunObject::FindRun(nsIDOMNode *aNode, PRInt32 aOffset, WSFragment **outRun, PRBool after) { // given a dompoint, find the ws run that is before or after it, as caller needs NS_ENSURE_TRUE(aNode && outRun, NS_ERROR_NULL_POINTER); nsresult res = NS_OK; WSFragment *run = mStartRun; while (run) { PRInt16 comp = mHTMLEditor->sRangeHelper->ComparePoints(aNode, aOffset, run->mStartNode, run->mStartOffset); if (comp <= 0) { if (after) { *outRun = run; return res; } else // before { *outRun = nsnull; return res; } } comp = mHTMLEditor->sRangeHelper->ComparePoints(aNode, aOffset, run->mEndNode, run->mEndOffset); if (comp < 0) { *outRun = run; return res; } else if (comp == 0) { if (after) { *outRun = run->mRight; return res; } else // before { *outRun = run; return res; } } if (!run->mRight) { if (after) { *outRun = nsnull; return res; } else // before { *outRun = run; return res; } } run = run->mRight; } return res; } PRUnichar nsWSRunObject::GetCharAt(nsIContent *aTextNode, PRInt32 aOffset) { // return 0 if we can't get a char, for whatever reason NS_ENSURE_TRUE(aTextNode, 0); PRInt32 len = PRInt32(aTextNode->TextLength()); if (aOffset < 0 || aOffset >= len) return 0; return aTextNode->GetText()->CharAt(aOffset); } nsresult nsWSRunObject::GetWSPointAfter(nsIDOMNode *aNode, PRInt32 aOffset, WSPoint *outPoint) { // Note: only to be called if aNode is not a ws node. // binary search on wsnodes PRInt32 numNodes, firstNum, curNum, lastNum; numNodes = mNodeArray.Count(); NS_ENSURE_TRUE(numNodes, NS_OK); // do nothing if there are no nodes to search firstNum = 0; curNum = numNodes/2; lastNum = numNodes; PRInt16 cmp=0; nsCOMPtr curNode; // begin binary search // we do this because we need to minimize calls to ComparePoints(), // which is mongo expensive while (curNum != lastNum) { curNode = mNodeArray[curNum]; cmp = mHTMLEditor->sRangeHelper->ComparePoints(aNode, aOffset, curNode, 0); if (cmp < 0) lastNum = curNum; else firstNum = curNum + 1; curNum = (lastNum - firstNum) / 2 + firstNum; NS_ASSERTION(firstNum <= curNum && curNum <= lastNum, "Bad binary search"); } // When the binary search is complete, we always know that the current node // is the same as the end node, which is always past our range. Therefore, // we've found the node immediately after the point of interest. if (curNum == mNodeArray.Count()) { // they asked for past our range (it's after the last node). GetCharAfter // will do the work for us when we pass it the last index of the last node. nsCOMPtr textNode(do_QueryInterface(mNodeArray[curNum-1])); WSPoint point(textNode, textNode->TextLength(), 0); return GetCharAfter(point, outPoint); } else { // The char after the point of interest is the first character of our range. nsCOMPtr textNode(do_QueryInterface(mNodeArray[curNum])); WSPoint point(textNode, 0, 0); return GetCharAfter(point, outPoint); } } nsresult nsWSRunObject::GetWSPointBefore(nsIDOMNode *aNode, PRInt32 aOffset, WSPoint *outPoint) { // Note: only to be called if aNode is not a ws node. // binary search on wsnodes PRInt32 numNodes, firstNum, curNum, lastNum; numNodes = mNodeArray.Count(); NS_ENSURE_TRUE(numNodes, NS_OK); // do nothing if there are no nodes to search firstNum = 0; curNum = numNodes/2; lastNum = numNodes; PRInt16 cmp=0; nsCOMPtr curNode; // begin binary search // we do this because we need to minimize calls to ComparePoints(), // which is mongo expensive while (curNum != lastNum) { curNode = mNodeArray[curNum]; cmp = mHTMLEditor->sRangeHelper->ComparePoints(aNode, aOffset, curNode, 0); if (cmp < 0) lastNum = curNum; else firstNum = curNum + 1; curNum = (lastNum - firstNum) / 2 + firstNum; NS_ASSERTION(firstNum <= curNum && curNum <= lastNum, "Bad binary search"); } // When the binary search is complete, we always know that the current node // is the same as the end node, which is always past our range. Therefore, // we've found the node immediately after the point of interest. if (curNum == mNodeArray.Count()) { // get the point before the end of the last node, we can pass the length // of the node into GetCharBefore, and it will return the last character. nsCOMPtr textNode(do_QueryInterface(mNodeArray[curNum - 1])); WSPoint point(textNode, textNode->TextLength(), 0); return GetCharBefore(point, outPoint); } else { // we can just ask the current node for the point immediately before it, // it will handle moving to the previous node (if any) and returning the // appropriate character nsCOMPtr textNode(do_QueryInterface(mNodeArray[curNum])); WSPoint point(textNode, 0, 0); return GetCharBefore(point, outPoint); } } nsresult nsWSRunObject::CheckTrailingNBSPOfRun(WSFragment *aRun) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation. // examine what is before and after the trailing nbsp, if any. NS_ENSURE_TRUE(aRun, NS_ERROR_NULL_POINTER); WSPoint thePoint; PRBool leftCheck = PR_FALSE; PRBool spaceNBSP = PR_FALSE; PRBool rightCheck = PR_FALSE; // confirm run is normalWS if (aRun->mType != eNormalWS) return NS_ERROR_FAILURE; // first check for trailing nbsp nsresult res = GetCharBefore(aRun->mEndNode, aRun->mEndOffset, &thePoint); if (NS_SUCCEEDED(res) && thePoint.mTextNode && thePoint.mChar == nbsp) { // now check that what is to the left of it is compatible with replacing nbsp with space WSPoint prevPoint; res = GetCharBefore(thePoint, &prevPoint); if (NS_SUCCEEDED(res) && prevPoint.mTextNode) { if (!nsCRT::IsAsciiSpace(prevPoint.mChar)) leftCheck = PR_TRUE; else spaceNBSP = PR_TRUE; } else if (aRun->mLeftType == eText) leftCheck = PR_TRUE; else if (aRun->mLeftType == eSpecial) leftCheck = PR_TRUE; if (leftCheck || spaceNBSP) { // now check that what is to the right of it is compatible with replacing nbsp with space if (aRun->mRightType == eText) rightCheck = PR_TRUE; if (aRun->mRightType == eSpecial) rightCheck = PR_TRUE; if (aRun->mRightType == eBreak) rightCheck = PR_TRUE; if ((aRun->mRightType & eBlock) && IsBlockNode(nsCOMPtr(GetWSBoundingParent()))) { // we are at a block boundary. Insert a
. Why? Well, first note that // the br will have no visible effect since it is up against a block boundary. // |foo

bar| renders like |foo

bar| and similarly // |

foo

bar| renders like |

foo

bar|. What this
addition // gets us is the ability to convert a trailing nbsp to a space. Consider: // |foo. '|, where ' represents selection. User types space attempting // to put 2 spaces after the end of their sentence. We used to do this as: // |foo.  | This caused problems with soft wrapping: the nbsp // would wrap to the next line, which looked attrocious. If you try to do: // |foo.  | instead, the trailing space is invisible because it // is against a block boundary. If you do: |foo.  | then // you get an even uglier soft wrapping problem, where foo is on one line until // you type the final space, and then "foo " jumps down to the next line. Ugh. // The best way I can find out of this is to throw in a harmless
// here, which allows us to do: |foo. 
|, which doesn't // cause foo to jump lines, doesn't cause spaces to show up at the beginning of // soft wrapped lines, and lets the user see 2 spaces when they type 2 spaces. nsCOMPtr brNode; res = mHTMLEditor->CreateBR(aRun->mEndNode, aRun->mEndOffset, address_of(brNode)); NS_ENSURE_SUCCESS(res, res); // refresh thePoint, prevPoint res = GetCharBefore(aRun->mEndNode, aRun->mEndOffset, &thePoint); NS_ENSURE_SUCCESS(res, res); res = GetCharBefore(thePoint, &prevPoint); NS_ENSURE_SUCCESS(res, res); rightCheck = PR_TRUE; } } if (leftCheck && rightCheck) { // now replace nbsp with space // first, insert a space nsCOMPtr textNode(do_QueryInterface(thePoint.mTextNode)); NS_ENSURE_TRUE(textNode, NS_ERROR_NULL_POINTER); nsAutoTxnsConserveSelection dontSpazMySelection(mHTMLEditor); nsAutoString spaceStr(PRUnichar(32)); res = mHTMLEditor->InsertTextIntoTextNodeImpl(spaceStr, textNode, thePoint.mOffset, PR_TRUE); NS_ENSURE_SUCCESS(res, res); // finally, delete that nbsp nsCOMPtr delNode(do_QueryInterface(thePoint.mTextNode)); res = DeleteChars(delNode, thePoint.mOffset+1, delNode, thePoint.mOffset+2); NS_ENSURE_SUCCESS(res, res); } else if (!mPRE && spaceNBSP && rightCheck) // don't mess with this preformatted for now. { // we have a run of ascii whitespace (which will render as one space) // followed by an nbsp (which is at the end of the whitespace run). Let's // switch their order. This will insure that if someone types two spaces // after a sentence, and the editor softwraps at this point, the spaces wont // be split across lines, which looks ugly and is bad for the moose. nsCOMPtr startNode, endNode, thenode(do_QueryInterface(prevPoint.mTextNode)); PRInt32 startOffset, endOffset; res = GetAsciiWSBounds(eBoth, thenode, prevPoint.mOffset+1, address_of(startNode), &startOffset, address_of(endNode), &endOffset); NS_ENSURE_SUCCESS(res, res); // delete that nbsp nsCOMPtr delNode(do_QueryInterface(thePoint.mTextNode)); res = DeleteChars(delNode, thePoint.mOffset, delNode, thePoint.mOffset+1); NS_ENSURE_SUCCESS(res, res); // finally, insert that nbsp before the ascii ws run nsAutoTxnsConserveSelection dontSpazMySelection(mHTMLEditor); nsAutoString nbspStr(nbsp); nsCOMPtr textNode(do_QueryInterface(startNode)); res = mHTMLEditor->InsertTextIntoTextNodeImpl(nbspStr, textNode, startOffset, PR_TRUE); NS_ENSURE_SUCCESS(res, res); } } return NS_OK; } nsresult nsWSRunObject::CheckTrailingNBSP(WSFragment *aRun, nsIDOMNode *aNode, PRInt32 aOffset) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation. // this routine is called when we about to make this point in the ws abut an inserted break // or text, so we don't have to worry about what is after it. What is after it now will // end up after the inserted object. NS_ENSURE_TRUE(aRun && aNode, NS_ERROR_NULL_POINTER); WSPoint thePoint; PRBool canConvert = PR_FALSE; nsresult res = GetCharBefore(aNode, aOffset, &thePoint); if (NS_SUCCEEDED(res) && thePoint.mTextNode && thePoint.mChar == nbsp) { WSPoint prevPoint; res = GetCharBefore(thePoint, &prevPoint); if (NS_SUCCEEDED(res) && prevPoint.mTextNode) { if (!nsCRT::IsAsciiSpace(prevPoint.mChar)) canConvert = PR_TRUE; } else if (aRun->mLeftType == eText) canConvert = PR_TRUE; else if (aRun->mLeftType == eSpecial) canConvert = PR_TRUE; } if (canConvert) { // first, insert a space nsCOMPtr textNode(do_QueryInterface(thePoint.mTextNode)); NS_ENSURE_TRUE(textNode, NS_ERROR_NULL_POINTER); nsAutoTxnsConserveSelection dontSpazMySelection(mHTMLEditor); nsAutoString spaceStr(PRUnichar(32)); res = mHTMLEditor->InsertTextIntoTextNodeImpl(spaceStr, textNode, thePoint.mOffset, PR_TRUE); NS_ENSURE_SUCCESS(res, res); // finally, delete that nbsp nsCOMPtr delNode(do_QueryInterface(thePoint.mTextNode)); res = DeleteChars(delNode, thePoint.mOffset+1, delNode, thePoint.mOffset+2); NS_ENSURE_SUCCESS(res, res); } return NS_OK; } nsresult nsWSRunObject::CheckLeadingNBSP(WSFragment *aRun, nsIDOMNode *aNode, PRInt32 aOffset) { // try to change an nbsp to a space, if possible, just to prevent nbsp proliferation // this routine is called when we about to make this point in the ws abut an inserted // text, so we don't have to worry about what is before it. What is before it now will // end up before the inserted text. WSPoint thePoint; PRBool canConvert = PR_FALSE; nsresult res = GetCharAfter(aNode, aOffset, &thePoint); if (NS_SUCCEEDED(res) && thePoint.mChar == nbsp) { WSPoint nextPoint, tmp=thePoint; tmp.mOffset++; // we want to be after thePoint res = GetCharAfter(tmp, &nextPoint); if (NS_SUCCEEDED(res) && nextPoint.mTextNode) { if (!nsCRT::IsAsciiSpace(nextPoint.mChar)) canConvert = PR_TRUE; } else if (aRun->mRightType == eText) canConvert = PR_TRUE; else if (aRun->mRightType == eSpecial) canConvert = PR_TRUE; else if (aRun->mRightType == eBreak) canConvert = PR_TRUE; } if (canConvert) { // first, insert a space nsCOMPtr textNode(do_QueryInterface(thePoint.mTextNode)); NS_ENSURE_TRUE(textNode, NS_ERROR_NULL_POINTER); nsAutoTxnsConserveSelection dontSpazMySelection(mHTMLEditor); nsAutoString spaceStr(PRUnichar(32)); res = mHTMLEditor->InsertTextIntoTextNodeImpl(spaceStr, textNode, thePoint.mOffset, PR_TRUE); NS_ENSURE_SUCCESS(res, res); // finally, delete that nbsp nsCOMPtr delNode(do_QueryInterface(thePoint.mTextNode)); res = DeleteChars(delNode, thePoint.mOffset+1, delNode, thePoint.mOffset+2); NS_ENSURE_SUCCESS(res, res); } return NS_OK; } nsresult nsWSRunObject::ScrubBlockBoundaryInner(nsHTMLEditor *aHTMLEd, nsCOMPtr *aBlock, BlockBoundary aBoundary) { NS_ENSURE_TRUE(aBlock && aHTMLEd, NS_ERROR_NULL_POINTER); PRInt32 offset=0; if (aBoundary == kBlockEnd) { PRUint32 uOffset; aHTMLEd->GetLengthOfDOMNode(*aBlock, uOffset); offset = uOffset; } nsWSRunObject theWSObj(aHTMLEd, *aBlock, offset); return theWSObj.Scrub(); } nsresult nsWSRunObject::Scrub() { WSFragment *run = mStartRun; while (run) { if (run->mType & (eLeadingWS|eTrailingWS) ) { nsresult res = DeleteChars(run->mStartNode, run->mStartOffset, run->mEndNode, run->mEndOffset); NS_ENSURE_SUCCESS(res, res); } run = run->mRight; } return NS_OK; }