/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef INCLUDED_STARMATH_INC_CURSOR_HXX #define INCLUDED_STARMATH_INC_CURSOR_HXX #include "node.hxx" #include "caret.hxx" #include #include #include /** Factor to multiple the squared horizontal distance with * Used for Up and Down movement. */ #define HORIZONTICAL_DISTANCE_FACTOR 10 /** Enum of direction for movement */ enum SmMovementDirection{ MoveUp, MoveDown, MoveLeft, MoveRight }; /** Enum of elements that can inserted into a formula */ enum SmFormulaElement{ BlankElement, FactorialElement, PlusElement, MinusElement, CDotElement, EqualElement, LessThanElement, GreaterThanElement, PercentElement }; /** Bracket types that can be inserted */ enum class SmBracketType { /** Round brackets, left command "(" */ Round, /**Square brackets, left command "[" */ Square, /** Curly brackets, left command "lbrace" */ Curly, }; /** A list of nodes */ typedef std::list SmNodeList; typedef std::list> SmClipboard; class SmDocShell; /** Formula cursor * * This class is used to represent a cursor in a formula, which can be used to manipulate * a formula programmatically. * @remarks This class is a very intimate friend of SmDocShell. */ class SmCursor{ public: SmCursor(SmNode* tree, SmDocShell* pShell) : mpAnchor(nullptr) , mpPosition(nullptr) , mpTree(tree) , mpDocShell(pShell) , mnEditSections(0) , mbIsEnabledSetModifiedSmDocShell(false) { //Build graph BuildGraph(); } /** Get position */ const SmCaretPos& GetPosition() const { return mpPosition->CaretPos; } /** True, if the cursor has a selection */ bool HasSelection() const { return mpAnchor != mpPosition; } /** Move the position of this cursor */ void Move(OutputDevice* pDev, SmMovementDirection direction, bool bMoveAnchor = true); /** Move to the caret position closet to a given point */ void MoveTo(OutputDevice* pDev, const Point& pos, bool bMoveAnchor); /** Delete the current selection or do nothing */ void Delete(); /** Delete selection, previous element or merge lines * * This method implements the behaviour of backspace. */ void DeletePrev(OutputDevice* pDev); /** Insert text at the current position */ void InsertText(const OUString& aString); /** Insert an element into the formula */ void InsertElement(SmFormulaElement element); /** Insert command text translated into line entries at position * * Note: This method uses the parser to translate a command text into a * tree, then it copies line entries from this tree into the current tree. * Will not work for commands such as newline or ##, if position is in a matrix. * This will work for stuff like "A intersection B". But stuff spanning multiple lines * or dependent on the context which position is placed in will not work! */ void InsertCommandText(const OUString& aCommandText); /** Insert a special node created from aString * * Used for handling insert request from the "catalog" dialog. * The provided string should be formatted as the desired command: %phi * Note: this method ONLY supports commands defined in Math.xcu * * For more complex expressions use InsertCommandText, this method doesn't * use SmParser, this means that it's faster, but not as strong. */ void InsertSpecial(const OUString& aString); /** Create sub-/super script * * If there's a selection, it will be move into the appropriate sub-/super scription * of the node in front of it. If there's no node in front of position (or the selection), * a sub-/super scription of a new SmPlaceNode will be made. * * If there's is an existing subscription of the node, the caret will be moved into it, * and any selection will replace it. */ void InsertSubSup(SmSubSup eSubSup); /** Insert a new row or newline * * Inserts a new row if position is in a matrix or stack command. * Otherwise a newline is inserted if we're in a toplevel line. * * @returns True, if a new row/line could be inserted. * * @remarks If the caret is placed in a subline of a command that doesn't support * this operator the method returns FALSE, and doesn't do anything. */ bool InsertRow(); /** Insert a fraction, use selection as numerator */ void InsertFraction(); /** Create brackets around current selection, or new SmPlaceNode */ void InsertBrackets(SmBracketType eBracketType); /** Copy the current selection */ void Copy(); /** Cut the current selection */ void Cut(){ Copy(); Delete(); } /** Paste the clipboard */ void Paste(); /** Returns true if more than one node is selected * * This method is used for implementing backspace and delete. * If one of these causes a complex selection, e.g. a node with * subnodes or similar, this should not be deleted immediately. */ bool HasComplexSelection(); /** Finds the topmost node in a visual line * * If MoveUpIfSelected is true, this will move up to the parent line * if the parent of the current line is selected. */ static SmNode* FindTopMostNodeInLine(SmNode* pSNode, bool MoveUpIfSelected = false); /** Draw the caret */ void Draw(OutputDevice& pDev, Point Offset, bool isCaretVisible); bool IsAtTailOfBracket(SmBracketType eBracketType, SmBraceNode** ppBraceNode) const; void MoveAfterBracket(SmBraceNode* pBraceNode); private: friend class SmDocShell; SmCaretPosGraphEntry *mpAnchor, *mpPosition; /** Formula tree */ SmNode* mpTree; /** Owner of the formula tree */ SmDocShell* mpDocShell; /** Graph over caret position in the current tree */ std::unique_ptr mpGraph; /** Clipboard holder */ SmClipboard maClipboard; /** Returns a node that is selected, if any could be found */ SmNode* FindSelectedNode(SmNode* pNode); /** Is this one of the nodes used to compose a line * * These are SmExpression, SmBinHorNode, SmUnHorNode etc. */ static bool IsLineCompositionNode(SmNode const * pNode); /** Count number of selected nodes, excluding line composition nodes * * Note this function doesn't count line composition nodes and it * does count all subnodes as well as the owner nodes. * * Used by SmCursor::HasComplexSelection() */ int CountSelectedNodes(SmNode* pNode); /** Convert a visual line to a list * * Note this method will delete all the nodes that will no longer be needed. * that includes pLine! * This method also deletes SmErrorNode's as they're just meta info in the line. */ static void LineToList(SmStructureNode* pLine, SmNodeList& rList); /** Auxiliary function for calling LineToList on a node * * This method sets pNode = NULL and remove it from its parent. * (Assuming it has a parent, and is a child of it). */ static void NodeToList(SmNode*& rpNode, SmNodeList& rList){ //Remove from parent and NULL rpNode SmNode* pNode = rpNode; if(rpNode && rpNode->GetParent()){ //Don't remove this, correctness relies on it int index = rpNode->GetParent()->IndexOfSubNode(rpNode); assert(index >= 0); rpNode->GetParent()->SetSubNode(index, nullptr); } rpNode = nullptr; //Create line from node if(pNode && IsLineCompositionNode(pNode)){ LineToList(static_cast(pNode), rList); return; } if(pNode) rList.push_front(pNode); } /** Clone a visual line to a clipboard * * ... but the selected part only. * Doesn't clone SmErrorNodes, which are ignored as they are context dependent metadata. */ static void CloneLineToClipboard(SmStructureNode* pLine, SmClipboard* pClipboard); /** Build pGraph over caret positions */ void BuildGraph(); /** Insert new nodes in the tree after position */ void InsertNodes(std::unique_ptr pNewNodes); /** tries to set position to a specific SmCaretPos * * @returns false on failure to find the position in pGraph. */ bool SetCaretPosition(SmCaretPos pos); /** Set selected on nodes of the tree */ void AnnotateSelection(); /** Clone list of nodes in a clipboard (creates a deep clone) */ static std::unique_ptr CloneList(SmClipboard &rClipboard); /** Find an iterator pointing to the node in pLineList following rCaretPos * * If rCaretPos.pSelectedNode cannot be found it is assumed that it's in front of pLineList, * thus not an element in pLineList. In this case this method returns an iterator to the * first element in pLineList. * * If the current position is inside an SmTextNode, this node will be split in two, for this * reason you should beaware that iterators to elements in pLineList may be invalidated, and * that you should call PatchLineList() with this iterator if no action is taken. */ static SmNodeList::iterator FindPositionInLineList(SmNodeList* pLineList, const SmCaretPos& rCaretPos); /** Patch a line list after modification, merge SmTextNode, remove SmPlaceNode etc. * * @param pLineList The line list to patch * @param aIter Iterator pointing to the element that needs to be patched with its previous. * * When the list is patched text nodes before and after aIter will be merged. * If there's an, in the context, inappropriate SmPlaceNode before or after aIter it will also be * removed. * * @returns A caret position equivalent to one selecting the node before aIter, the method returns * an invalid SmCaretPos to indicate placement in front of the line. */ static SmCaretPos PatchLineList(SmNodeList* pLineList, SmNodeList::iterator aIter); /** Take selected nodes from a list * * Puts the selected nodes into pSelectedNodes, or if pSelectedNodes is NULL deletes * the selected nodes. * Note: If there's a selection inside an SmTextNode this node will be split, and it * will not be merged when the selection have been taken. Use PatchLineList on the * iterator returns to fix this. * * @returns An iterator pointing to the element following the selection taken. */ static SmNodeList::iterator TakeSelectedNodesFromList(SmNodeList *pLineList, SmNodeList *pSelectedNodes = nullptr); /** Create an instance of SmMathSymbolNode usable for brackets */ static SmNode *CreateBracket(SmBracketType eBracketType, bool bIsLeft); /** The number of times BeginEdit have been called * Used to allow nesting of BeginEdit() and EndEdit() sections */ int mnEditSections; /** Holds data for BeginEdit() and EndEdit() */ bool mbIsEnabledSetModifiedSmDocShell; /** Begin edit section where the tree will be modified */ void BeginEdit(); /** End edit section where the tree will be modified */ void EndEdit(); /** Finish editing * * Finishes editing by parsing pLineList and inserting back into pParent at nParentIndex. * This method also rebuilds the graph, annotates the selection, sets caret position and * Calls EndEdit. * * @remarks Please note that this method will delete pLineList, as the elements are taken. * * @param pLineList List the constitutes the edited line. * @param pParent Parent to which the line should be inserted. * @param nParentIndex Index in parent where the line should be inserted. * @param PosAfterEdit Caret position to look for after rebuilding graph. * @param pStartLine Line to take first position in, if PosAfterEdit cannot be found, * leave it NULL for pLineList. */ void FinishEdit(std::unique_ptr pLineList, SmStructureNode* pParent, int nParentIndex, SmCaretPos PosAfterEdit, SmNode* pStartLine = nullptr); /** Request the formula is repainted */ void RequestRepaint(); }; /** Minimalistic recursive decent SmNodeList parser * * This parser is used to take a list of nodes that constitutes a line * and parse them to a tree of SmBinHorNode, SmUnHorNode and SmExpression. * * Please note, this will not handle all kinds of nodes, only nodes that * constitutes and entry in a line. * * Below is an EBNF representation of the grammar used for this parser: * \code * Expression -> Relation* * Relation -> Sum [(=|<|>|...) Sum]* * Sum -> Product [(+|-) Product]* * Product -> Factor [(*|/) Factor]* * Factor -> [+|-|-+|...]* Factor | Postfix * Postfix -> node [!]* * \endcode */ class SmNodeListParser{ public: /** Create an instance of SmNodeListParser */ SmNodeListParser(){ pList = nullptr; } /** Parse a list of nodes to an expression. * * Old error nodes will be deleted. */ SmNode* Parse(SmNodeList* list); /** True, if the token is an operator */ static bool IsOperator(const SmToken &token); /** True, if the token is a relation operator */ static bool IsRelationOperator(const SmToken &token); /** True, if the token is a sum operator */ static bool IsSumOperator(const SmToken &token); /** True, if the token is a product operator */ static bool IsProductOperator(const SmToken &token); /** True, if the token is a unary operator */ static bool IsUnaryOperator(const SmToken &token); /** True, if the token is a postfix operator */ static bool IsPostfixOperator(const SmToken &token); private: SmNodeList* pList; /** Get the current terminal */ SmNode* Terminal(){ if (!pList->empty()) return pList->front(); return nullptr; } /** Move to next terminal */ SmNode* Next(){ pList->pop_front(); return Terminal(); } /** Take the current terminal */ SmNode* Take(){ SmNode* pRetVal = Terminal(); Next(); return pRetVal; } SmNode* Expression(); SmNode* Relation(); SmNode* Sum(); SmNode* Product(); SmNode* Factor(); SmNode* Postfix(); static SmNode* Error(); }; #endif // INCLUDED_STARMATH_INC_CURSOR_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */