office-gobmx/starmath/source/cursor.cxx
2012-02-19 17:07:46 +04:00

1735 lines
59 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* Version: MPL 1.1 / GPLv3+ / LGPLv3+
*
* 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 Initial Developer of the Original Code is
* Jonas Finnemann Jensen <jopsen@gmail.com>
* Portions created by the Initial Developer are Copyright (C) 2010 the
* Initial Developer. All Rights Reserved.
*
* Contributor(s): Jonas Finnemann Jensen <jopsen@gmail.com>
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 3 or later (the "GPLv3+"), or
* the GNU Lesser General Public License Version 3 or later (the "LGPLv3+"),
* in which case the provisions of the GPLv3+ or the LGPLv3+ are applicable
* instead of those above.
*/
#include "cursor.hxx"
#include "parse.hxx"
#include "visitors.hxx"
#include "document.hxx"
#include "view.hxx"
#include "accessibility.hxx"
#include <comphelper/string.hxx>
void SmCursor::Move(OutputDevice* pDev, SmMovementDirection direction, bool bMoveAnchor){
SmCaretPosGraphEntry* NewPos = NULL;
switch(direction){
case MoveLeft:
{
NewPos = position->Left;
OSL_ENSURE(NewPos, "NewPos shouldn't be NULL here!");
}break;
case MoveRight:
{
NewPos = position->Right;
OSL_ENSURE(NewPos, "NewPos shouldn't be NULL here!");
}break;
case MoveUp:
//Implementation is practically identical to MoveDown, except for a single if statement
//so I've implemented them together and added a direction == MoveDown to the if statements.
case MoveDown:
{
SmCaretLine from_line = SmCaretPos2LineVisitor(pDev, position->CaretPos).GetResult(),
best_line, //Best approximated line found so far
curr_line; //Current line
long dbp_sq = 0; //Distance squared to best line
SmCaretPosGraphIterator it = pGraph->GetIterator();
while(it.Next()){
//Reject it if it's the current position
if(it->CaretPos == position->CaretPos) continue;
//Compute caret line
curr_line = SmCaretPos2LineVisitor(pDev, it->CaretPos).GetResult();
//Reject anything above if we're moving down
if(curr_line.GetTop() <= from_line.GetTop() && direction == MoveDown) continue;
//Reject anything below if we're moving up
if(curr_line.GetTop() + curr_line.GetHeight() >= from_line.GetTop() + from_line.GetHeight()
&& direction == MoveUp) continue;
//Compare if it to what we have, if we have anything yet
if(NewPos){
//Compute distance to current line squared, multiplied with a horizontial factor
long dp_sq = curr_line.SquaredDistanceX(from_line) * HORIZONTICAL_DISTANCE_FACTOR +
curr_line.SquaredDistanceY(from_line);
//Discard current line if best line is closer
if(dbp_sq <= dp_sq) continue;
}
//Take current line as the best
best_line = curr_line;
NewPos = it.Current();
//Update distance to best line
dbp_sq = best_line.SquaredDistanceX(from_line) * HORIZONTICAL_DISTANCE_FACTOR +
best_line.SquaredDistanceY(from_line);
}
}break;
default:
OSL_FAIL("Movement direction not supported!");
}
if(NewPos){
position = NewPos;
if(bMoveAnchor)
anchor = NewPos;
RequestRepaint();
}
}
void SmCursor::MoveTo(OutputDevice* pDev, Point pos, bool bMoveAnchor){
SmCaretLine best_line, //Best line found so far, when iterating
curr_line; //Current line, when iterating
SmCaretPosGraphEntry* NewPos = NULL;
long dp_sq = 0, //Distance to current line squared
dbp_sq = 1; //Distance to best line squared
SmCaretPosGraphIterator it = pGraph->GetIterator();
while(it.Next()){
OSL_ENSURE(it->CaretPos.IsValid(), "The caret position graph may not have invalid positions!");
//Compute current line
curr_line = SmCaretPos2LineVisitor(pDev, it->CaretPos).GetResult();
//If we have a position compare to it
if(NewPos){
//Compute squared distance to current line
dp_sq = curr_line.SquaredDistanceX(pos) + curr_line.SquaredDistanceY(pos);
//If best line is closer, reject current line
if(dbp_sq <= dp_sq) continue;
}
//Accept current position as the best
best_line = curr_line;
NewPos = it.Current();
//Update distance to best line
dbp_sq = best_line.SquaredDistanceX(pos) + best_line.SquaredDistanceY(pos);
}
if(NewPos){
position = NewPos;
if(bMoveAnchor)
anchor = NewPos;
RequestRepaint();
}
}
void SmCursor::BuildGraph(){
//Save the current anchor and position
SmCaretPos _anchor, _position;
//Release pGraph if allocated
if(pGraph){
if(anchor)
_anchor = anchor->CaretPos;
if(position)
_position = position->CaretPos;
delete pGraph;
//Reset anchor and position as they point into an old graph
anchor = NULL;
position = NULL;
}
pGraph = NULL;
//Build the new graph
pGraph = SmCaretPosGraphBuildingVisitor(pTree).Graph();
//Restore anchor and position pointers
if(_anchor.IsValid() || _position.IsValid()){
SmCaretPosGraphIterator it = pGraph->GetIterator();
while(it.Next()){
if(_anchor == it->CaretPos)
anchor = it.Current();
if(_position == it->CaretPos)
position = it.Current();
}
}
//Set position and anchor to first caret position
SmCaretPosGraphIterator it = pGraph->GetIterator();
if(!position)
position = it.Next();
if(!anchor)
anchor = position;
OSL_ENSURE(position->CaretPos.IsValid(), "Position must be valid");
OSL_ENSURE(anchor->CaretPos.IsValid(), "Anchor must be valid");
}
bool SmCursor::SetCaretPosition(SmCaretPos pos, bool moveAnchor){
SmCaretPosGraphIterator it = pGraph->GetIterator();
while(it.Next()){
if(it->CaretPos == pos){
position = it.Current();
if(moveAnchor)
anchor = it.Current();
return true;
}
}
return false;
}
void SmCursor::AnnotateSelection(){
//TODO: Manage a state, reset it upon modification and optimize this call
SmSetSelectionVisitor(anchor->CaretPos, position->CaretPos, pTree);
}
void SmCursor::Draw(OutputDevice& pDev, Point Offset, bool isCaretVisible){
SmCaretDrawingVisitor(pDev, GetPosition(), Offset, isCaretVisible);
}
void SmCursor::DeletePrev(OutputDevice* pDev){
//Delete only a selection if there's a selection
if(HasSelection()){
Delete();
return;
}
SmNode* pLine = FindTopMostNodeInLine(position->CaretPos.pSelectedNode);
SmStructureNode* pLineParent = pLine->GetParent();
int nLineOffset = pLineParent->IndexOfSubNode(pLine);
//If we're in front of a node who's parent is a TABLE
if(pLineParent->GetType() == NTABLE && position->CaretPos.Index == 0 && nLineOffset > 0){
//Now we can merge with nLineOffset - 1
BeginEdit();
//Line to merge things into, so we can delete pLine
SmNode* pMergeLine = pLineParent->GetSubNode(nLineOffset-1);
OSL_ENSURE(pMergeLine, "pMergeLine cannot be NULL!");
//Convert first line to list
SmNodeList *pLineList = NodeToList(pMergeLine);
//Find iterator to patch
SmNodeList::iterator patchPoint = pLineList->end();
--patchPoint;
//Convert second line to list
NodeToList(pLine, pLineList);
//Patch the line list
++patchPoint;
SmCaretPos PosAfterDelete = PatchLineList(pLineList, patchPoint);
//Parse the line
pLine = SmNodeListParser().Parse(pLineList);
delete pLineList;
pLineParent->SetSubNode(nLineOffset-1, pLine);
//Delete the removed line slot
SmNodeArray lines(pLineParent->GetNumSubNodes()-1);
for(int i = 0; i < pLineParent->GetNumSubNodes(); i++){
if(i < nLineOffset)
lines[i] = pLineParent->GetSubNode(i);
else if(i > nLineOffset)
lines[i-1] = pLineParent->GetSubNode(i);
}
pLineParent->SetSubNodes(lines);
//Rebuild graph
anchor = NULL;
position = NULL;
BuildGraph();
AnnotateSelection();
//Set caret position
if(!SetCaretPosition(PosAfterDelete, true))
SetCaretPosition(SmCaretPos(pLine, 0), true);
//Finish editing
EndEdit();
//TODO: If we're in an empty (sub/super/*) script
/*}else if(pLineParent->GetType() == NSUBSUP &&
nLineOffset != 0 &&
pLine->GetType() == NEXPRESSION &&
pLine->GetNumSubNodes() == 0){
//There's a (sub/super) script we can delete
//Consider selecting the entire script if GetNumSubNodes() != 0 or pLine->GetType() != NEXPRESSION
//TODO: Handle case where we delete a limit
*/
//Else move select, and delete if not complex
}else{
this->Move(pDev, MoveLeft, false);
if(!this->HasComplexSelection())
Delete();
}
}
void SmCursor::Delete(){
//Return if we don't have a selection to delete
if(!HasSelection())
return;
//Enter edit setion
BeginEdit();
//Set selected on nodes
AnnotateSelection();
//Find an arbitrary selected node
SmNode* pSNode = FindSelectedNode(pTree);
OSL_ENSURE(pSNode != NULL, "There must be a selection when HasSelection is true!");
//Find the topmost node of the line that holds the selection
SmNode* pLine = FindTopMostNodeInLine(pSNode, true);
OSL_ENSURE(pLine != pTree, "Shouldn't be able to select the entire tree");
//Get the parent of the line
SmStructureNode* pLineParent = pLine->GetParent();
//Find line offset in parent
int nLineOffset = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE(nLineOffset != -1, "pLine must be a child of it's parent!");
//Position after delete
SmCaretPos PosAfterDelete;
SmNodeList* pLineList = NodeToList(pLine);
//Take the selected nodes and delete them...
SmNodeList::iterator patchIt = TakeSelectedNodesFromList(pLineList);
//Get teh position to set after delete
PosAfterDelete = PatchLineList(pLineList, patchIt);
//Finish editing
FinishEdit(pLineList, pLineParent, nLineOffset, PosAfterDelete);
}
void SmCursor::InsertNodes(SmNodeList* pNewNodes){
if(pNewNodes->empty()){
delete pNewNodes;
return;
}
//Begin edit section
BeginEdit();
//Position after insert should be after pNewNode
SmCaretPos PosAfterInsert = SmCaretPos(pNewNodes->back(), 1);
//Get the current position
const SmCaretPos pos = position->CaretPos;
//Find top most of line that holds position
SmNode* pLine = FindTopMostNodeInLine(pos.pSelectedNode, false);
//Find line parent and line index in parent
SmStructureNode* pLineParent = pLine->GetParent();
int nParentIndex = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE(nParentIndex != -1, "pLine must be a subnode of pLineParent!");
//Convert line to list
SmNodeList* pLineList = NodeToList(pLine);
//Find iterator for place to insert nodes
SmNodeList::iterator it = FindPositionInLineList(pLineList, pos);
//Insert all new nodes
SmNodeList::iterator newIt,
patchIt = it, // (pointless default value, fixes compiler warnings)
insIt;
for(newIt = pNewNodes->begin(); newIt != pNewNodes->end(); ++newIt){
insIt = pLineList->insert(it, *newIt);
if(newIt == pNewNodes->begin())
patchIt = insIt;
if((*newIt)->GetType() == NTEXT)
PosAfterInsert = SmCaretPos(*newIt, ((SmTextNode*)*newIt)->GetText().Len());
else
PosAfterInsert = SmCaretPos(*newIt, 1);
}
//Patch the places we've changed stuff
PatchLineList(pLineList, patchIt);
PosAfterInsert = PatchLineList(pLineList, it);
//Release list, we've taken the nodes
delete pNewNodes;
pNewNodes = NULL;
//Finish editing
FinishEdit(pLineList, pLineParent, nParentIndex, PosAfterInsert);
}
SmNodeList::iterator SmCursor::FindPositionInLineList(SmNodeList* pLineList, SmCaretPos aCaretPos) {
//Find iterator for position
SmNodeList::iterator it;
for(it = pLineList->begin(); it != pLineList->end(); ++it){
if(*it == aCaretPos.pSelectedNode){
if((*it)->GetType() == NTEXT){
//Split textnode if needed
if(aCaretPos.Index > 0){
SmTextNode* pText = (SmTextNode*)aCaretPos.pSelectedNode;
XubString str1 = pText->GetText().Copy(0, aCaretPos.Index);
XubString str2 = pText->GetText().Copy(aCaretPos.Index);
pText->ChangeText(str1);
++it;
//Insert str2 as new text node
if(str2.Len() > 0){
SmTextNode* pNewText = new SmTextNode(pText->GetToken(), pText->GetFontDesc());
pNewText->ChangeText(str2);
it = pLineList->insert(it, pNewText);
}
}
}else
++it;
//it now pointer to the node following pos, so pLineList->insert(it, ...) will insert correctly
return it;
}
}
//If we didn't find pSelectedNode, it must be because the caret is in front of the line
return pLineList->begin();
}
SmCaretPos SmCursor::PatchLineList(SmNodeList* pLineList, SmNodeList::iterator aIter) {
//The nodes we should consider merging
SmNode *prev = NULL,
*next = NULL;
if(aIter != pLineList->end())
next = *aIter;
if(aIter != pLineList->begin()) {
--aIter;
prev = *aIter;
++aIter;
}
//Check if there's textnodes to merge
if( prev &&
next &&
prev->GetType() == NTEXT &&
next->GetType() == NTEXT &&
( prev->GetToken().eType != TNUMBER ||
next->GetToken().eType == TNUMBER) ){
SmTextNode *pText = (SmTextNode*)prev,
*pOldN = (SmTextNode*)next;
SmCaretPos retval(pText, pText->GetText().Len());
String newText;
newText += pText->GetText();
newText += pOldN->GetText();
pText->ChangeText(newText);
delete pOldN;
pLineList->erase(aIter);
return retval;
}
//Check if there's a SmPlaceNode to remove:
if(prev && next && prev->GetType() == NPLACE && !SmNodeListParser::IsOperator(next->GetToken())){
--aIter;
aIter = pLineList->erase(aIter);
delete prev;
//Return caret pos in front of aIter
if(aIter != pLineList->begin())
--aIter; //Thus find node before aIter
if(aIter == pLineList->begin())
return SmCaretPos();
if((*aIter)->GetType() == NTEXT)
return SmCaretPos(*aIter, ((SmTextNode*)*aIter)->GetText().Len());
return SmCaretPos(*aIter, 1);
}
if(prev && next && next->GetType() == NPLACE && !SmNodeListParser::IsOperator(prev->GetToken())){
aIter = pLineList->erase(aIter);
delete next;
if(prev->GetType() == NTEXT)
return SmCaretPos(prev, ((SmTextNode*)prev)->GetText().Len());
return SmCaretPos(prev, 1);
}
//If we didn't do anything return
if(!prev) //return an invalid to indicate we're in front of line
return SmCaretPos();
if(prev->GetType() == NTEXT)
return SmCaretPos(prev, ((SmTextNode*)prev)->GetText().Len());
return SmCaretPos(prev, 1);
}
SmNodeList::iterator SmCursor::TakeSelectedNodesFromList(SmNodeList *pLineList,
SmNodeList *pSelectedNodes) {
SmNodeList::iterator retval;
SmNodeList::iterator it = pLineList->begin();
while(it != pLineList->end()){
if((*it)->IsSelected()){
//Split text nodes
if((*it)->GetType() == NTEXT) {
SmTextNode* pText = (SmTextNode*)*it;
String aText = pText->GetText();
//Start and lengths of the segments, 2 is the selected segment
int start2 = pText->GetSelectionStart(),
start3 = pText->GetSelectionEnd(),
len1 = start2 - 0,
len2 = start3 - start2,
len3 = aText.Len() - start3;
SmToken aToken = pText->GetToken();
sal_uInt16 eFontDesc = pText->GetFontDesc();
//If we need make segment 1
if(len1 > 0) {
int start1 = 0;
String str = aText.Copy(start1, len1);
pText->ChangeText(str);
++it;
} else {//Remove it if not needed
it = pLineList->erase(it);
delete pText;
}
//Set retval to be right after the selection
retval = it;
//if we need make segment 3
if(len3 > 0) {
String str = aText.Copy(start3, len3);
SmTextNode* pSeg3 = new SmTextNode(aToken, eFontDesc);
pSeg3->ChangeText(str);
retval = pLineList->insert(it, pSeg3);
}
//If we need to save the selected text
if(pSelectedNodes && len2 > 0) {
String str = aText.Copy(start2, len2);
SmTextNode* pSeg2 = new SmTextNode(aToken, eFontDesc);
pSeg2->ChangeText(str);
pSelectedNodes->push_back(pSeg2);
}
} else { //if it's not textnode
SmNode* pNode = *it;
retval = it = pLineList->erase(it);
if(pSelectedNodes)
pSelectedNodes->push_back(pNode);
else
delete pNode;
}
} else
++it;
}
return retval;
}
void SmCursor::InsertSubSup(SmSubSup eSubSup) {
AnnotateSelection();
//Find line
SmNode *pLine;
if(HasSelection()) {
SmNode *pSNode = FindSelectedNode(pTree);
OSL_ENSURE(pSNode != NULL, "There must be a selected node when HasSelection is true!");
pLine = FindTopMostNodeInLine(pSNode, sal_True);
} else
pLine = FindTopMostNodeInLine(position->CaretPos.pSelectedNode, sal_False);
//Find Parent and offset in parent
SmStructureNode *pLineParent = pLine->GetParent();
int nParentIndex = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE(nParentIndex != -1, "pLine must be a subnode of pLineParent!");
//TODO: Consider handling special cases where parent is an SmOperNode,
// Maybe this method should be able to add limits to an SmOperNode...
//We begin modifying the tree here
BeginEdit();
//Convert line to list
SmNodeList* pLineList = NodeToList(pLine);
//Take the selection, and/or find iterator for current position
SmNodeList* pSelectedNodesList = new SmNodeList();
SmNodeList::iterator it;
if(HasSelection())
it = TakeSelectedNodesFromList(pLineList, pSelectedNodesList);
else
it = FindPositionInLineList(pLineList, position->CaretPos);
//Find node that this should be applied to
SmNode* pSubject;
bool bPatchLine = pSelectedNodesList->size() > 0; //If the line should be patched later
if(it != pLineList->begin()) {
--it;
pSubject = *it;
++it;
} else {
//Create a new place node
pSubject = new SmPlaceNode();
pSubject->Prepare(pDocShell->GetFormat(), *pDocShell);
it = pLineList->insert(it, pSubject);
++it;
bPatchLine = true; //We've modified the line it should be patched later.
}
//Wrap the subject in a SmSubSupNode
SmSubSupNode* pSubSup;
if(pSubject->GetType() != NSUBSUP){
SmToken token;
token.nGroup = TGPOWER;
pSubSup = new SmSubSupNode(token);
pSubSup->SetBody(pSubject);
*(--it) = pSubSup;
++it;
}else
pSubSup = (SmSubSupNode*)pSubject;
//pSubject shouldn't be referenced anymore, pSubSup is the SmSubSupNode in pLineList we wish to edit.
//and it pointer to the element following pSubSup in pLineList.
pSubject = NULL;
//Patch the line if we noted that was needed previously
if(bPatchLine)
PatchLineList(pLineList, it);
//Convert existing, if any, sub-/superscript line to list
SmNode *pScriptLine = pSubSup->GetSubSup(eSubSup);
SmNodeList* pScriptLineList = NodeToList(pScriptLine);
//Add selection to pScriptLineList
unsigned int nOldSize = pScriptLineList->size();
pScriptLineList->insert(pScriptLineList->end(), pSelectedNodesList->begin(), pSelectedNodesList->end());
delete pSelectedNodesList;
pSelectedNodesList = NULL;
//Patch pScriptLineList if needed
if(0 < nOldSize && nOldSize < pScriptLineList->size()) {
SmNodeList::iterator iPatchPoint = pScriptLineList->begin();
std::advance(iPatchPoint, nOldSize);
PatchLineList(pScriptLineList, iPatchPoint);
}
//Find caret pos, that should be used after sub-/superscription.
SmCaretPos PosAfterScript; //Leave invalid for first position
if(pScriptLineList->size() > 0)
PosAfterScript = SmCaretPos::GetPosAfter(pScriptLineList->back());
//Parse pScriptLineList
pScriptLine = SmNodeListParser().Parse(pScriptLineList);
delete pScriptLineList;
pScriptLineList = NULL;
//Insert pScriptLine back into the tree
pSubSup->SetSubSup(eSubSup, pScriptLine);
//Finish editing
FinishEdit(pLineList, pLineParent, nParentIndex, PosAfterScript, pScriptLine);
}
bool SmCursor::InsertLimit(SmSubSup eSubSup, bool bMoveCaret) {
//Find a subject to set limits on
SmOperNode *pSubject = NULL;
//Check if pSelectedNode might be a subject
if(position->CaretPos.pSelectedNode->GetType() == NOPER)
pSubject = (SmOperNode*)position->CaretPos.pSelectedNode;
else {
//If not, check if parent of the current line is a SmOperNode
SmNode *pLineNode = FindTopMostNodeInLine(position->CaretPos.pSelectedNode, sal_False);
if(pLineNode->GetParent() && pLineNode->GetParent()->GetType() == NOPER)
pSubject = (SmOperNode*)pLineNode->GetParent();
}
//Abort operation if we're not in the appropriate context
if(!pSubject)
return false;
BeginEdit();
//Find the sub sup node
SmSubSupNode *pSubSup = NULL;
//Check if there's already one there...
if(pSubject->GetSubNode(0)->GetType() == NSUBSUP)
pSubSup = (SmSubSupNode*)pSubject->GetSubNode(0);
else { //if not create a new SmSubSupNode
SmToken token;
token.nGroup = TGLIMIT;
pSubSup = new SmSubSupNode(token);
//Set it's body
pSubSup->SetBody(pSubject->GetSubNode(0));
//Replace the operation of the SmOperNode
pSubject->SetSubNode(0, pSubSup);
}
//Create the limit, if needed
SmCaretPos PosAfterLimit;
SmNode *pLine = NULL;
if(!pSubSup->GetSubSup(eSubSup)){
pLine = new SmPlaceNode();
pSubSup->SetSubSup(eSubSup, pLine);
PosAfterLimit = SmCaretPos(pLine, 1);
//If it's already there... let's move the caret
} else if(bMoveCaret){
pLine = pSubSup->GetSubSup(eSubSup);
SmNodeList* pLineList = NodeToList(pLine);
if(pLineList->size() > 0)
PosAfterLimit = SmCaretPos::GetPosAfter(pLineList->back());
pLine = SmNodeListParser().Parse(pLineList);
delete pLineList;
pSubSup->SetSubSup(eSubSup, pLine);
}
//Rebuild graph of caret positions
BuildGraph();
AnnotateSelection();
//Set caret position
if(bMoveCaret)
if(!SetCaretPosition(PosAfterLimit, true))
SetCaretPosition(SmCaretPos(pLine, 0), true);
EndEdit();
return true;
}
void SmCursor::InsertBrackets(SmBracketType eBracketType) {
BeginEdit();
AnnotateSelection();
//Find line
SmNode *pLine;
if(HasSelection()) {
SmNode *pSNode = FindSelectedNode(pTree);
OSL_ENSURE(pSNode != NULL, "There must be a selected node if HasSelection()");
pLine = FindTopMostNodeInLine(pSNode, sal_True);
} else
pLine = FindTopMostNodeInLine(position->CaretPos.pSelectedNode, sal_False);
//Find parent and offset in parent
SmStructureNode *pLineParent = pLine->GetParent();
int nParentIndex = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE( nParentIndex != -1, "pLine must be a subnode of pLineParent!");
//Convert line to list
SmNodeList *pLineList = NodeToList(pLine);
//Take the selection, and/or find iterator for current position
SmNodeList *pSelectedNodesList = new SmNodeList();
SmNodeList::iterator it;
if(HasSelection())
it = TakeSelectedNodesFromList(pLineList, pSelectedNodesList);
else
it = FindPositionInLineList(pLineList, position->CaretPos);
//If there's no selected nodes, create a place node
SmNode *pBodyNode;
SmCaretPos PosAfterInsert;
if(pSelectedNodesList->empty()) {
pBodyNode = new SmPlaceNode();
PosAfterInsert = SmCaretPos(pBodyNode, 1);
} else
pBodyNode = SmNodeListParser().Parse(pSelectedNodesList);
delete pSelectedNodesList;
//Create SmBraceNode
SmToken aTok(TLEFT, '\0', "left", 0, 5);
SmBraceNode *pBrace = new SmBraceNode(aTok);
pBrace->SetScaleMode(SCALE_HEIGHT);
SmNode *pLeft = CreateBracket(eBracketType, true),
*pRight = CreateBracket(eBracketType, false);
SmBracebodyNode *pBody = new SmBracebodyNode(SmToken());
pBody->SetSubNodes(pBodyNode, NULL);
pBrace->SetSubNodes(pLeft, pBody, pRight);
pBrace->Prepare(pDocShell->GetFormat(), *pDocShell);
//Insert into line
pLineList->insert(it, pBrace);
//Patch line (I think this is good enough)
SmCaretPos pAfter = PatchLineList(pLineList, it);
if( !PosAfterInsert.IsValid() )
PosAfterInsert = pAfter;
//Finish editing
FinishEdit(pLineList, pLineParent, nParentIndex, PosAfterInsert);
}
SmNode *SmCursor::CreateBracket(SmBracketType eBracketType, bool bIsLeft) {
SmToken aTok;
if(bIsLeft){
switch(eBracketType){
case NoneBrackets:
aTok = SmToken(TNONE, '\0', "none", TGLBRACES | TGRBRACES, 0);
break;
case RoundBrackets:
aTok = SmToken(TLPARENT, MS_LPARENT, "(", TGLBRACES, 5);
break;
case SquareBrackets:
aTok = SmToken(TLBRACKET, MS_LBRACKET, "[", TGLBRACES, 5);
break;
case DoubleSquareBrackets:
aTok = SmToken(TLDBRACKET, MS_LDBRACKET, "ldbracket", TGLBRACES, 5);
break;
case LineBrackets:
aTok = SmToken(TLLINE, MS_LINE, "lline", TGLBRACES, 5);
break;
case DoubleLineBrackets:
aTok = SmToken(TLDLINE, MS_DLINE, "ldline", TGLBRACES, 5);
break;
case CurlyBrackets:
aTok = SmToken(TLBRACE, MS_LBRACE, "lbrace", TGLBRACES, 5);
break;
case AngleBrackets:
aTok = SmToken(TLANGLE, MS_LANGLE, "langle", TGLBRACES, 5);
break;
case CeilBrackets:
aTok = SmToken(TLCEIL, MS_LCEIL, "lceil", TGLBRACES, 5);
break;
case FloorBrackets:
aTok = SmToken(TLFLOOR, MS_LFLOOR, "lfloor", TGLBRACES, 5);
break;
}
} else {
switch(eBracketType) {
case NoneBrackets:
aTok = SmToken(TNONE, '\0', "none", TGLBRACES | TGRBRACES, 0);
break;
case RoundBrackets:
aTok = SmToken(TRPARENT, MS_RPARENT, ")", TGRBRACES, 5);
break;
case SquareBrackets:
aTok = SmToken(TRBRACKET, MS_RBRACKET, "]", TGRBRACES, 5);
break;
case DoubleSquareBrackets:
aTok = SmToken(TRDBRACKET, MS_RDBRACKET, "rdbracket", TGRBRACES, 5);
break;
case LineBrackets:
aTok = SmToken(TRLINE, MS_LINE, "rline", TGRBRACES, 5);
break;
case DoubleLineBrackets:
aTok = SmToken(TRDLINE, MS_DLINE, "rdline", TGRBRACES, 5);
break;
case CurlyBrackets:
aTok = SmToken(TRBRACE, MS_RBRACE, "rbrace", TGRBRACES, 5);
break;
case AngleBrackets:
aTok = SmToken(TRANGLE, MS_RANGLE, "rangle", TGRBRACES, 5);
break;
case CeilBrackets:
aTok = SmToken(TRCEIL, MS_RCEIL, "rceil", TGRBRACES, 5);
break;
case FloorBrackets:
aTok = SmToken(TRFLOOR, MS_RFLOOR, "rfloor", TGRBRACES, 5);
break;
}
}
SmNode* pRetVal = new SmMathSymbolNode(aTok);
pRetVal->SetScaleMode(SCALE_HEIGHT);
return pRetVal;
}
bool SmCursor::InsertRow() {
AnnotateSelection();
//Find line
SmNode *pLine;
if(HasSelection()) {
SmNode *pSNode = FindSelectedNode(pTree);
OSL_ENSURE(pSNode != NULL, "There must be a selected node if HasSelection()");
pLine = FindTopMostNodeInLine(pSNode, sal_True);
} else
pLine = FindTopMostNodeInLine(position->CaretPos.pSelectedNode, sal_False);
//Find parent and offset in parent
SmStructureNode *pLineParent = pLine->GetParent();
int nParentIndex = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE( nParentIndex != -1, "pLine must be a subnode of pLineParent!");
//Discover the context of this command
SmTableNode *pTable = NULL;
SmMatrixNode *pMatrix = NULL;
int nTableIndex = nParentIndex;
if(pLineParent->GetType() == NTABLE)
pTable = (SmTableNode*)pLineParent;
//If it's warped in a SmLineNode, we can still insert a newline
else if(pLineParent->GetType() == NLINE &&
pLineParent->GetParent() &&
pLineParent->GetParent()->GetType() == NTABLE) {
//NOTE: This hack might give problems if we stop ignoring SmAlignNode
pTable = (SmTableNode*)pLineParent->GetParent();
nTableIndex = pTable->IndexOfSubNode(pLineParent);
OSL_ENSURE(nTableIndex != -1, "pLineParent must be a child of its parent!");
}
if(pLineParent->GetType() == NMATRIX)
pMatrix = (SmMatrixNode*)pLineParent;
//If we're not in a context that supports InsertRow, return sal_False
if(!pTable && !pMatrix)
return false;
//Now we start editing
BeginEdit();
//Convert line to list
SmNodeList *pLineList = NodeToList(pLine);
//Find position in line
SmNodeList::iterator it;
if(HasSelection()) {
//Take the selected nodes and delete them...
it = TakeSelectedNodesFromList(pLineList);
} else
it = FindPositionInLineList(pLineList, position->CaretPos);
//New caret position after inserting the newline/row in whatever context
SmCaretPos PosAfterInsert;
//If we're in the context of a table
if(pTable) {
SmNodeList *pNewLineList = new SmNodeList();
//Move elements from pLineList to pNewLineList
pNewLineList->splice(pNewLineList->begin(), *pLineList, it, pLineList->end());
//Make sure it is valid again
it = pLineList->end();
if(it != pLineList->begin())
--it;
if(pNewLineList->empty())
pNewLineList->push_front(new SmPlaceNode());
//Parse new line
SmNode *pNewLine = SmNodeListParser().Parse(pNewLineList);
delete pNewLineList;
//Wrap pNewLine in SmLineNode if needed
if(pLineParent->GetType() == NLINE) {
SmLineNode *pNewLineNode = new SmLineNode(SmToken(TNEWLINE, '\0', "newline"));
pNewLineNode->SetSubNodes(pNewLine, NULL);
pNewLine = pNewLineNode;
}
//Get position
PosAfterInsert = SmCaretPos(pNewLine, 0);
//Move other nodes if needed
for( int i = pTable->GetNumSubNodes(); i > nTableIndex + 1; i--)
pTable->SetSubNode(i, pTable->GetSubNode(i-1));
//Insert new line
pTable->SetSubNode(nTableIndex + 1, pNewLine);
//Check if we need to change token type:
if(pTable->GetNumSubNodes() > 2 && pTable->GetToken().eType == TBINOM) {
SmToken tok = pTable->GetToken();
tok.eType = TSTACK;
pTable->SetToken(tok);
}
}
//If we're in the context of a matrix
else if(pMatrix) {
//Find position after insert and patch the list
PosAfterInsert = PatchLineList(pLineList, it);
//Move other children
sal_uInt16 rows = pMatrix->GetNumRows();
sal_uInt16 cols = pMatrix->GetNumCols();
int nRowStart = (nParentIndex - nParentIndex % cols) + cols;
for( int i = pMatrix->GetNumSubNodes() + cols - 1; i >= nRowStart + cols; i--)
pMatrix->SetSubNode(i, pMatrix->GetSubNode(i - cols));
for( int i = nRowStart; i < nRowStart + cols; i++) {
SmPlaceNode *pNewLine = new SmPlaceNode();
if(i == nParentIndex + cols)
PosAfterInsert = SmCaretPos(pNewLine, 0);
pMatrix->SetSubNode(i, pNewLine);
}
pMatrix->SetRowCol(rows + 1, cols);
} else
OSL_FAIL("We must be either the context of a table or matrix!");
//Finish editing
FinishEdit(pLineList, pLineParent, nParentIndex, PosAfterInsert);
//FinishEdit is actually used to handle siturations where parent is an instance of
//SmSubSupNode. In this case parent should always be a table or matrix, however, for
//code reuse we just use FinishEdit() here too.
return true;
}
void SmCursor::InsertFraction() {
AnnotateSelection();
//Find line
SmNode *pLine;
if(HasSelection()) {
SmNode *pSNode = FindSelectedNode(pTree);
OSL_ENSURE(pSNode != NULL, "There must be a selected node when HasSelection is true!");
pLine = FindTopMostNodeInLine(pSNode, sal_True);
} else
pLine = FindTopMostNodeInLine(position->CaretPos.pSelectedNode, sal_False);
//Find Parent and offset in parent
SmStructureNode *pLineParent = pLine->GetParent();
int nParentIndex = pLineParent->IndexOfSubNode(pLine);
OSL_ENSURE(nParentIndex != -1, "pLine must be a subnode of pLineParent!");
//We begin modifying the tree here
BeginEdit();
//Convert line to list
SmNodeList* pLineList = NodeToList(pLine);
//Take the selection, and/or find iterator for current position
SmNodeList* pSelectedNodesList = new SmNodeList();
SmNodeList::iterator it;
if(HasSelection())
it = TakeSelectedNodesFromList(pLineList, pSelectedNodesList);
else
it = FindPositionInLineList(pLineList, position->CaretPos);
//Create pNum, and pDenom
bool bEmptyFraction = pSelectedNodesList->empty();
SmNode *pNum = bEmptyFraction
? new SmPlaceNode()
: SmNodeListParser().Parse(pSelectedNodesList);
SmNode *pDenom = new SmPlaceNode();
delete pSelectedNodesList;
pSelectedNodesList = NULL;
//Create new fraction
SmBinVerNode *pFrac = new SmBinVerNode(SmToken(TOVER, '\0', "over", TGPRODUCT, 0));
SmNode *pRect = new SmRectangleNode(SmToken());
pFrac->SetSubNodes(pNum, pRect, pDenom);
//Insert in pLineList
SmNodeList::iterator patchIt = pLineList->insert(it, pFrac);
PatchLineList(pLineList, patchIt);
PatchLineList(pLineList, it);
//Finish editing
SmNode *pSelectedNode = bEmptyFraction ? pNum : pDenom;
FinishEdit(pLineList, pLineParent, nParentIndex, SmCaretPos(pSelectedNode, 1));
}
void SmCursor::InsertText(XubString aString){
BeginEdit();
Delete();
SmToken token;
token.eType = TIDENT;
token.cMathChar = '\0';
token.nGroup = 0;
token.nLevel = 5;
token.aText = aString;
SmTextNode* pText = new SmTextNode(token, FNT_VARIABLE);
//Prepare the new node
pText->Prepare(pDocShell->GetFormat(), *pDocShell);
pText->AdjustFontDesc();
SmNodeList* pList = new SmNodeList();
pList->push_front(pText);
InsertNodes(pList);
EndEdit();
}
void SmCursor::InsertElement(SmFormulaElement element){
BeginEdit();
Delete();
//Create new node
SmNode* pNewNode = NULL;
switch(element){
case BlankElement:
{
SmToken token;
token.nGroup = TGBLANK;
token.aText.AssignAscii("~");
pNewNode = new SmBlankNode(token);
}break;
case FactorialElement:
{
SmToken token(TFACT, MS_FACT, "fact", TGUNOPER, 5);
pNewNode = new SmMathSymbolNode(token);
}break;
case PlusElement:
{
SmToken token;
token.eType = TPLUS;
token.cMathChar = MS_PLUS;
token.nGroup = TGUNOPER | TGSUM;
token.nLevel = 5;
token.aText.AssignAscii("+");
pNewNode = new SmMathSymbolNode(token);
}break;
case MinusElement:
{
SmToken token;
token.eType = TMINUS;
token.cMathChar = MS_MINUS;
token.nGroup = TGUNOPER | TGSUM;
token.nLevel = 5;
token.aText.AssignAscii("-");
pNewNode = new SmMathSymbolNode(token);
}break;
case CDotElement:
{
SmToken token;
token.eType = TCDOT;
token.cMathChar = MS_CDOT;
token.nGroup = TGPRODUCT;
token.aText.AssignAscii("cdot");
pNewNode = new SmMathSymbolNode(token);
}break;
case EqualElement:
{
SmToken token;
token.eType = TASSIGN;
token.cMathChar = MS_ASSIGN;
token.nGroup = TGRELATION;
token.aText.AssignAscii("=");
pNewNode = new SmMathSymbolNode(token);
}break;
case LessThanElement:
{
SmToken token;
token.eType = TLT;
token.cMathChar = MS_LT;
token.nGroup = TGRELATION;
token.aText.AssignAscii("<");
pNewNode = new SmMathSymbolNode(token);
}break;
case GreaterThanElement:
{
SmToken token;
token.eType = TGT;
token.cMathChar = MS_GT;
token.nGroup = TGRELATION;
token.aText.AssignAscii(">");
pNewNode = new SmMathSymbolNode(token);
}break;
case PercentElement:
{
SmToken token;
token.eType = TTEXT;
token.cMathChar = MS_PERCENT;
token.nGroup = 0;
token.aText.AssignAscii("\"%\"");
pNewNode = new SmMathSymbolNode(token);
}break;
default:
OSL_FAIL("Element unknown!");
}
OSL_ENSURE(pNewNode != NULL, "No new node was created!");
if(!pNewNode)
return;
//Prepare the new node
pNewNode->Prepare(pDocShell->GetFormat(), *pDocShell);
//Insert new node
SmNodeList* pList = new SmNodeList();
pList->push_front(pNewNode);
InsertNodes(pList);
EndEdit();
}
void SmCursor::InsertSpecial(XubString aString) {
BeginEdit();
Delete();
aString = comphelper::string::strip(aString, ' ');
//Create instance of special node
SmToken token;
token.eType = TSPECIAL;
token.cMathChar = '\0';
token.nGroup = 0;
token.nLevel = 5;
token.aText = aString;
SmSpecialNode* pSpecial = new SmSpecialNode(token);
//Prepare the special node
pSpecial->Prepare(pDocShell->GetFormat(), *pDocShell);
//Insert the node
SmNodeList* pList = new SmNodeList();
pList->push_front(pSpecial);
InsertNodes(pList);
EndEdit();
}
void SmCursor::InsertCommand(sal_uInt16 nCommand) {
switch(nCommand){
case RID_NEWLINE:
InsertRow();
break;
case RID_FROMX:
InsertLimit(CSUB, true);
break;
case RID_TOX:
InsertLimit(CSUP, true);
break;
case RID_FROMXTOY:
if(InsertLimit(CSUB, true))
InsertLimit(CSUP, true);
break;
default:
InsertCommandText(SmResId(nCommand));
break;
}
}
void SmCursor::InsertCommandText(XubString aCommandText) {
//Parse the the sub expression
SmNode* pSubExpr = SmParser().ParseExpression(aCommandText);
//Prepare the subtree
pSubExpr->Prepare(pDocShell->GetFormat(), *pDocShell);
//Convert subtree to list
SmNodeList* pLineList = NodeToList(pSubExpr);
BeginEdit();
//Delete any selection
Delete();
//Insert it
InsertNodes(pLineList);
EndEdit();
}
void SmCursor::Copy(){
if(!HasSelection())
return;
//Find selected node
SmNode* pSNode = FindSelectedNode(pTree);
//Find visual line
SmNode* pLine = FindTopMostNodeInLine(pSNode, true);
//Clone selected nodes
SmNodeList* pList;
if(IsLineCompositionNode(pLine))
pList = CloneLineToList((SmStructureNode*)pLine, true);
else{
pList = new SmNodeList();
//Special care to only clone selected text
if(pLine->GetType() == NTEXT) {
SmTextNode *pText = (SmTextNode*)pLine;
SmTextNode *pClone = new SmTextNode( pText->GetToken(), pText->GetFontDesc() );
int start = pText->GetSelectionStart(),
length = pText->GetSelectionEnd() - pText->GetSelectionStart();
pClone->ChangeText(pText->GetText().Copy(start, length));
pClone->SetScaleMode(pText->GetScaleMode());
pList->push_front(pClone);
} else {
SmCloningVisitor aCloneFactory;
pList->push_front(aCloneFactory.Clone(pLine));
}
}
//Set clipboard
if(pList->size() > 0)
SetClipboard(pList);
}
void SmCursor::Paste() {
BeginEdit();
Delete();
if(pClipboard && pClipboard->size() > 0)
InsertNodes(CloneList(pClipboard));
EndEdit();
}
SmNodeList* SmCursor::CloneList(SmNodeList* pList){
SmCloningVisitor aCloneFactory;
SmNodeList* pClones = new SmNodeList();
SmNodeList::iterator it;
for(it = pList->begin(); it != pList->end(); ++it){
SmNode *pClone = aCloneFactory.Clone(*it);
pClones->push_back(pClone);
}
return pClones;
}
void SmCursor::SetClipboard(SmNodeList* pList){
if(pClipboard){
//Delete all nodes on the clipboard
SmNodeList::iterator it;
for(it = pClipboard->begin(); it != pClipboard->end(); ++it)
delete (*it);
delete pClipboard;
}
pClipboard = pList;
}
SmNode* SmCursor::FindTopMostNodeInLine(SmNode* pSNode, bool MoveUpIfSelected){
//If we haven't got a subnode
if(!pSNode)
return NULL;
//Move up parent untill we find a node who's
//parent is NULL or isn't selected and not a type of:
// SmExpressionNode
// SmLineNode
// SmBinHorNode
// SmUnHorNode
// SmAlignNode
// SmFontNode
while(pSNode->GetParent() &&
((MoveUpIfSelected &&
pSNode->GetParent()->IsSelected()) ||
IsLineCompositionNode(pSNode->GetParent())))
pSNode = pSNode->GetParent();
//Now we have the selection line node
return pSNode;
}
SmNode* SmCursor::FindSelectedNode(SmNode* pNode){
SmNodeIterator it(pNode);
while(it.Next()){
if(it->IsSelected())
return it.Current();
SmNode* pRetVal = FindSelectedNode(it.Current());
if(pRetVal)
return pRetVal;
}
return NULL;
}
SmNodeList* SmCursor::LineToList(SmStructureNode* pLine, SmNodeList* list){
SmNodeIterator it(pLine);
while(it.Next()){
switch(it->GetType()){
case NLINE:
case NUNHOR:
case NEXPRESSION:
case NBINHOR:
case NALIGN:
case NFONT:
LineToList((SmStructureNode*)it.Current(), list);
break;
case NERROR:
delete it.Current();
break;
default:
list->push_back(it.Current());
}
}
SmNodeArray emptyArray(0);
pLine->SetSubNodes(emptyArray);
delete pLine;
return list;
}
SmNodeList* SmCursor::CloneLineToList(SmStructureNode* pLine, bool bOnlyIfSelected, SmNodeList* pList){
SmCloningVisitor aCloneFactory;
SmNodeIterator it(pLine);
while(it.Next()){
if( IsLineCompositionNode( it.Current() ) )
CloneLineToList( (SmStructureNode*)it.Current(), bOnlyIfSelected, pList );
else if( (!bOnlyIfSelected || it->IsSelected()) && it->GetType() != NERROR ) {
//Only clone selected text from SmTextNode
if(it->GetType() == NTEXT) {
SmTextNode *pText = (SmTextNode*)it.Current();
SmTextNode *pClone = new SmTextNode( it->GetToken(), pText->GetFontDesc() );
int start = pText->GetSelectionStart(),
length = pText->GetSelectionEnd() - pText->GetSelectionStart();
pClone->ChangeText(pText->GetText().Copy(start, length));
pClone->SetScaleMode(pText->GetScaleMode());
pList->push_back(pClone);
} else
pList->push_back(aCloneFactory.Clone(it.Current()));
}
}
return pList;
}
bool SmCursor::IsLineCompositionNode(SmNode* pNode){
switch(pNode->GetType()){
case NLINE:
case NUNHOR:
case NEXPRESSION:
case NBINHOR:
case NALIGN:
case NFONT:
return true;
default:
return false;
}
}
int SmCursor::CountSelectedNodes(SmNode* pNode){
int nCount = 0;
SmNodeIterator it(pNode);
while(it.Next()){
if(it->IsSelected() && !IsLineCompositionNode(it.Current()))
nCount++;
nCount += CountSelectedNodes(it.Current());
}
return nCount;
}
bool SmCursor::HasComplexSelection(){
if(!HasSelection())
return false;
AnnotateSelection();
return CountSelectedNodes(pTree) > 1;
}
void SmCursor::FinishEdit(SmNodeList* pLineList,
SmStructureNode* pParent,
int nParentIndex,
SmCaretPos PosAfterEdit,
SmNode* pStartLine) {
//Store number of nodes in line for later
int entries = pLineList->size();
//Parse list of nodes to a tree
SmNodeListParser parser;
SmNode* pLine = parser.Parse(pLineList);
delete pLineList;
//Check if we're making the body of a subsup node bigger than one
if(pParent->GetType() == NSUBSUP &&
nParentIndex == 0 &&
entries > 1) {
//Wrap pLine in scalable round brackets
SmToken aTok(TLEFT, '\0', "left", 0, 5);
SmBraceNode *pBrace = new SmBraceNode(aTok);
pBrace->SetScaleMode(SCALE_HEIGHT);
SmNode *pLeft = CreateBracket(RoundBrackets, true),
*pRight = CreateBracket(RoundBrackets, false);
SmBracebodyNode *pBody = new SmBracebodyNode(SmToken());
pBody->SetSubNodes(pLine, NULL);
pBrace->SetSubNodes(pLeft, pBody, pRight);
pBrace->Prepare(pDocShell->GetFormat(), *pDocShell);
pLine = pBrace;
//TODO: Consider the following alternative behavior:
//Consider the line: A + {B + C}^D lsub E
//Here pLineList is B, + and C and pParent is a subsup node with
//both RSUP and LSUB set. Imagine the user just inserted "B +" in
//the body of the subsup node...
//The most natural thing to do would be to make the line like this:
//A + B lsub E + C ^ D
//E.g. apply LSUB and LSUP to the first element in pLineList and RSUP
//and RSUB to the last eleent in pLineList. But how should this act
//for CSUP and CSUB ???
//For this reason and because brackets was faster to implement, this solution
//have been choosen. It might be worth working on the other solution later...
}
//Set pStartLine if NULL
if(!pStartLine)
pStartLine = pLine;
//Insert it back into the parent
pParent->SetSubNode(nParentIndex, pLine);
//Rebuild graph of caret position
anchor = NULL;
position = NULL;
BuildGraph();
AnnotateSelection(); //Update selection annotation!
//Set caret position
if(!SetCaretPosition(PosAfterEdit, true))
SetCaretPosition(SmCaretPos(pStartLine, 0), true);
//End edit section
EndEdit();
}
void SmCursor::BeginEdit(){
if(nEditSections++ > 0) return;
bIsEnabledSetModifiedSmDocShell = pDocShell->IsEnableSetModified();
if( bIsEnabledSetModifiedSmDocShell )
pDocShell->EnableSetModified( sal_False );
}
void SmCursor::EndEdit(){
if(--nEditSections > 0) return;
pDocShell->SetFormulaArranged(sal_False);
//Okay, I don't know what this does... :)
//It's used in SmDocShell::SetText and with places where everything is modified.
//I think it does some magic, with sfx, but everything is totally undocumented so
//it's kinda hard to tell...
if ( bIsEnabledSetModifiedSmDocShell )
pDocShell->EnableSetModified( bIsEnabledSetModifiedSmDocShell );
//I think this notifies people around us that we've modified this document...
pDocShell->SetModified(sal_True);
//I think SmDocShell uses this value when it sends an update graphics event
//Anyway comments elsewhere suggests it need to be updated...
pDocShell->nModifyCount++;
//TODO: Consider copying the update accessability code from SmDocShell::SetText in here...
//This somehow updates the size of SmGraphicView if it is running in embedded mode
if( pDocShell->GetCreateMode() == SFX_CREATE_MODE_EMBEDDED )
pDocShell->OnDocumentPrinterChanged(0);
//Request a replaint...
RequestRepaint();
//Update the edit engine and text of the document
String formula;
SmNodeToTextVisitor(pTree, formula);
//pTree->CreateTextFromNode(formula);
pDocShell->aText = formula;
pDocShell->GetEditEngine().QuickInsertText( formula, ESelection( 0, 0, EE_PARA_ALL, EE_PARA_ALL ) );
pDocShell->GetEditEngine().QuickFormatDoc();
}
void SmCursor::RequestRepaint(){
SmViewShell *pViewSh = SmGetActiveView();
if( pViewSh ) {
if ( SFX_CREATE_MODE_EMBEDDED == pDocShell->GetCreateMode() )
pDocShell->Repaint();
else
pViewSh->GetGraphicWindow().Invalidate();
}
}
bool SmCursor::IsAtTailOfBracket(SmBracketType eBracketType, SmBraceNode** ppBraceNode) const {
const SmCaretPos pos = GetPosition();
if (!pos.IsValid()) {
return false;
}
SmNode* pNode = pos.pSelectedNode;
if (pNode->GetType() == NTEXT) {
SmTextNode* pTextNode = static_cast<SmTextNode*>(pNode);
if (pos.Index < pTextNode->GetText().Len()) {
// The cursor is on a text node and at the middle of it.
return false;
}
} else {
if (pos.Index < 1) {
return false;
}
}
while (true) {
SmStructureNode* pParentNode = pNode->GetParent();
if (!pParentNode) {
// There's no brace body node in the ancestors.
return false;
}
sal_uInt16 index = pNode->FindIndex();
if (index + 1 != pParentNode->GetNumSubNodes()) {
// The cursor is not at the tail at one of ancestor nodes.
return false;
}
pNode = pParentNode;
if (pNode->GetType() == NBRACEBODY) {
// Found the brace body node.
break;
}
}
SmStructureNode* pBraceNodeTmp = pNode->GetParent();
if (!pBraceNodeTmp || pBraceNodeTmp->GetType() != NBRACE) {
// Brace node is invalid.
return false;
}
SmBraceNode* pBraceNode = static_cast<SmBraceNode*>(pBraceNodeTmp);
SmMathSymbolNode* pClosingNode = pBraceNode->ClosingBrace();
if (!pClosingNode) {
// Couldn't get closing symbol node.
return false;
}
// Check if the closing brace matches eBracketType.
SmTokenType eClosingTokenType = pClosingNode->GetToken().eType;
switch (eBracketType) {
case NoneBrackets: if (eClosingTokenType != TNONE) { return false; } break;
case RoundBrackets: if (eClosingTokenType != TRPARENT) { return false; } break;
case SquareBrackets: if (eClosingTokenType != TRBRACKET) { return false; } break;
case DoubleSquareBrackets: if (eClosingTokenType != TRDBRACKET) { return false; } break;
case LineBrackets: if (eClosingTokenType != TRLINE) { return false; } break;
case DoubleLineBrackets: if (eClosingTokenType != TRDLINE) { return false; } break;
case CurlyBrackets: if (eClosingTokenType != TRBRACE) { return false; } break;
case AngleBrackets: if (eClosingTokenType != TRANGLE) { return false; } break;
case CeilBrackets: if (eClosingTokenType != TRCEIL) { return false; } break;
case FloorBrackets: if (eClosingTokenType != TRFLOOR) { return false; } break;
default:
return false;
}
if (ppBraceNode) {
*ppBraceNode = static_cast<SmBraceNode*>(pBraceNode);
}
return true;
}
void SmCursor::MoveAfterBracket(SmBraceNode* pBraceNode, bool bMoveAnchor)
{
position->CaretPos.pSelectedNode = pBraceNode;
position->CaretPos.Index = 1;
if (bMoveAnchor) {
anchor->CaretPos.pSelectedNode = pBraceNode;
anchor->CaretPos.Index = 1;
}
RequestRepaint();
}
/////////////////////////////////////// SmNodeListParser ///////////////////////////////////////
SmNode* SmNodeListParser::Parse(SmNodeList* list, bool bDeleteErrorNodes){
pList = list;
if(bDeleteErrorNodes){
//Delete error nodes
SmNodeList::iterator it = pList->begin();
while(it != pList->end()) {
if((*it)->GetType() == NERROR){
//Delete and erase
delete *it;
it = pList->erase(it);
}else
++it;
}
}
SmNode* retval = Expression();
pList = NULL;
return retval;
}
SmNode* SmNodeListParser::Expression(){
SmNodeArray NodeArray;
//Accept as many relations as there is
while(Terminal())
NodeArray.push_back(Relation());
//Create SmExpressionNode, I hope SmToken() will do :)
SmStructureNode* pExpr = new SmExpressionNode(SmToken());
pExpr->SetSubNodes(NodeArray);
return pExpr;
}
SmNode* SmNodeListParser::Relation(){
//Read a sum
SmNode* pLeft = Sum();
//While we have tokens and the next is a relation
while(Terminal() && IsRelationOperator(Terminal()->GetToken())){
//Take the operator
SmNode* pOper = Take();
//Find the right side of the relation
SmNode* pRight = Sum();
//Create new SmBinHorNode
SmStructureNode* pNewNode = new SmBinHorNode(SmToken());
pNewNode->SetSubNodes(pLeft, pOper, pRight);
pLeft = pNewNode;
}
return pLeft;
}
SmNode* SmNodeListParser::Sum(){
//Read a product
SmNode* pLeft = Product();
//While we have tokens and the next is a sum
while(Terminal() && IsSumOperator(Terminal()->GetToken())){
//Take the operator
SmNode* pOper = Take();
//Find the right side of the sum
SmNode* pRight = Product();
//Create new SmBinHorNode
SmStructureNode* pNewNode = new SmBinHorNode(SmToken());
pNewNode->SetSubNodes(pLeft, pOper, pRight);
pLeft = pNewNode;
}
return pLeft;
}
SmNode* SmNodeListParser::Product(){
//Read a Factor
SmNode* pLeft = Factor();
//While we have tokens and the next is a product
while(Terminal() && IsProductOperator(Terminal()->GetToken())){
//Take the operator
SmNode* pOper = Take();
//Find the right side of the operation
SmNode* pRight = Factor();
//Create new SmBinHorNode
SmStructureNode* pNewNode = new SmBinHorNode(SmToken());
pNewNode->SetSubNodes(pLeft, pOper, pRight);
pLeft = pNewNode;
}
return pLeft;
}
SmNode* SmNodeListParser::Factor(){
//Read unary operations
if(!Terminal())
return Error();
//Take care of unary operators
else if(IsUnaryOperator(Terminal()->GetToken()))
{
SmStructureNode *pUnary = new SmUnHorNode(SmToken());
SmNode *pOper = Terminal(),
*pArg;
if(Next())
pArg = Factor();
else
pArg = Error();
pUnary->SetSubNodes(pOper, pArg);
return pUnary;
}
return Postfix();
}
SmNode* SmNodeListParser::Postfix(){
if(!Terminal())
return Error();
SmNode *pArg = NULL;
if(IsPostfixOperator(Terminal()->GetToken()))
pArg = Error();
else if(IsOperator(Terminal()->GetToken()))
return Error();
else
pArg = Take();
while(Terminal() && IsPostfixOperator(Terminal()->GetToken())) {
SmStructureNode *pUnary = new SmUnHorNode(SmToken());
SmNode *pOper = Take();
pUnary->SetSubNodes(pArg, pOper);
pArg = pUnary;
}
return pArg;
}
SmNode* SmNodeListParser::Error(){
return new SmErrorNode(PE_UNEXPECTED_TOKEN, SmToken());
}
bool SmNodeListParser::IsOperator(const SmToken &token) {
return IsRelationOperator(token) ||
IsSumOperator(token) ||
IsProductOperator(token) ||
IsUnaryOperator(token) ||
IsPostfixOperator(token);
}
bool SmNodeListParser::IsRelationOperator(const SmToken &token) {
return token.nGroup & TGRELATION;
}
bool SmNodeListParser::IsSumOperator(const SmToken &token) {
return token.nGroup & TGSUM;
}
bool SmNodeListParser::IsProductOperator(const SmToken &token) {
return token.nGroup & TGPRODUCT &&
token.eType != TWIDESLASH &&
token.eType != TWIDEBACKSLASH &&
token.eType != TUNDERBRACE &&
token.eType != TOVERBRACE &&
token.eType != TOVER;
}
bool SmNodeListParser::IsUnaryOperator(const SmToken &token) {
return token.nGroup & TGUNOPER &&
(token.eType == TPLUS ||
token.eType == TMINUS ||
token.eType == TPLUSMINUS ||
token.eType == TMINUSPLUS ||
token.eType == TNEG ||
token.eType == TUOPER);
}
bool SmNodeListParser::IsPostfixOperator(const SmToken &token) {
return token.eType == TFACT;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */