// -*- C++ -*- /** * \file DocIterator.h * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author André Pönitz * * Full author contact details are available in file CREDITS. */ #ifndef DOCITERATOR_H #define DOCITERATOR_H #include "CursorSlice.h" #include #include namespace lyx { class DocIterator; class Encoding; class FontSpan; class InsetIterator; class LyXErr; class MathAtom; class Paragraph; class Text; DocIterator doc_iterator_begin(Buffer const * buf, Inset const * inset = 0); DocIterator doc_iterator_end(Buffer const * buf, Inset const * inset = 0); class DocIterator { public: /// type for cell number in inset typedef CursorSlice::idx_type idx_type; /// type for row indices typedef CursorSlice::row_type row_type; /// type for col indices typedef CursorSlice::col_type col_type; public: /// DocIterator(); /// explicit DocIterator(Buffer *buf); /// access to owning buffer Buffer * buffer() const { return buffer_; } /// access to owning buffer void setBuffer(Buffer * buf) { buffer_ = buf; } /// Clone this for given \p buffer. /// \p buffer must be a clone of buffer_. DocIterator clone(Buffer * buffer) const; /// access slice at position \p i CursorSlice const & operator[](size_t i) const { return slices_[i]; } /// access slice at position \p i CursorSlice & operator[](size_t i) { return slices_[i]; } /// chop a few slices from the iterator void resize(size_t i) { slices_.resize(i); } /// is the iterator valid? explicit operator bool() const { return !empty(); } /// does this iterator have any content? bool empty() const { return slices_.empty(); } /// is this the end position? bool atEnd() const { return slices_.empty(); } /// is this the last possible position? bool atLastPos() const { return pit() == lastpit() && pos() == lastpos(); } /// checks the cursor slices for disabled spell checker insets bool allowSpellCheck() const; // // access to slice at tip // /// access to tip CursorSlice & top() { return slices_.back(); } /// access to tip CursorSlice const & top() const { return slices_.back(); } /// access to outermost slice CursorSlice & bottom() { return slices_.front(); } /// access to outermost slice CursorSlice const & bottom() const { return slices_.front(); } /// how many nested insets do we have? size_t depth() const { return slices_.size(); } /// the containing inset Inset & inset() const { return top().inset(); } /// return the cell of the inset this cursor is in idx_type idx() const { return top().idx(); } /// return the cell of the inset this cursor is in idx_type & idx() { return top().idx(); } /// return the last possible cell in this inset idx_type lastidx() const; /// return the paragraph this cursor is in pit_type pit() const { return top().pit(); } /// return the paragraph this cursor is in pit_type & pit() { return top().pit(); } /// return the last possible paragraph in this inset pit_type lastpit() const; /// return the position within the paragraph pos_type pos() const { return top().pos(); } /// return the position within the paragraph pos_type & pos() { return top().pos(); } /// return the last position within the paragraph pos_type lastpos() const; /// return the number of embedded cells size_t nargs() const; /// return the number of embedded cells size_t ncols() const; /// return the number of embedded cells size_t nrows() const; /// return the grid row of the top cell row_type row() const; /// return the last row of the top grid row_type lastrow() const { return nrows() - 1; } /// return the grid column of the top cell col_type col() const; /// return the last column of the top grid col_type lastcol() const { return ncols() - 1; } /// the inset just behind the cursor /// returns 0 if there is no inset (e.g. normal text) Inset * nextInset() const; /// the inset just in front of the cursor Inset * prevInset() const; /// bool boundary() const { return boundary_; } /// void boundary(bool b) { boundary_ = b; } // the two methods below have been inlined out because of // profiling results under linux when opening a document. /// are we in mathed?. bool inMathed() const { return !empty() && inset().inMathed(); } /// are we in texted?. bool inTexted() const { return !empty() && !inset().inMathed(); } /// are we in regexp-mode ? bool inRegexped() const; // // math-specific part // /// return the mathed cell this cursor is in MathData & cell() const; /// InsetMath & nextMath(); /// InsetMath & prevMath(); /// the mathatom left of the cursor MathAtom & prevAtom() const; /// the mathatom right of the cursor MathAtom & nextAtom() const; // text-specific part // /// the paragraph we're in in text mode. /// \warning only works within text! Paragraph & paragraph() const; /// the paragraph we're in in any case. /// This method will give the containing paragraph even /// if not in text mode (ex: in mathed). Paragraph & innerParagraph() const; /// return the inner text slice. CursorSlice const & innerTextSlice() const; // convert a DocIterator into an argument to LFUN_PARAGRAPH_GOTO docstring paragraphGotoArgument() const; /// returns a DocIterator for the containing text inset DocIterator getInnerText() const; /// the first and last positions of a word at top cursor slice /// \warning only works within text! FontSpan locateWord(word_location const loc) const; /// Text * text() const; /// the containing inset or the cell, respectively Inset * realInset() const; /// Inset * innerInsetOfType(int code) const; /// Text * innerText() const; // // elementary moving // /// move one step backwards bool posBackward(); /// move one step forward bool posForward(); /** * move on one logical position, descend into nested insets * including collapsed insets */ void forwardPos(); /** * move on one logical position, descend into nested insets * skip collapsed insets */ void forwardPosIgnoreCollapsed(); /// move on one physical character or inset void forwardChar(); /// move on one paragraph void forwardPar(); /// move on to the next closest inset void forwardInset(); /// move backward one logical position void backwardPos(); /// move backward one physical character or inset void backwardChar(); /// move backward one paragraph void backwardPar(); /// move backward one inset /// not used currently, uncomment if you need it //void backwardInset(); /// are we some 'extension' (i.e. deeper nested) of the given iterator bool hasPart(DocIterator const & it) const; /// output friend std::ostream & operator<<(std::ostream & os, DocIterator const & cur); friend LyXErr & operator<<(LyXErr & os, DocIterator const & it); /// friend bool operator==(DocIterator const &, DocIterator const &); friend bool operator<(DocIterator const &, DocIterator const &); friend bool operator>(DocIterator const &, DocIterator const &); friend bool operator<=(DocIterator const &, DocIterator const &); /// friend class StableDocIterator; //protected: /// void clear() { slices_.clear(); } /// void push_back(CursorSlice const & sl) { slices_.push_back(sl); } /// void pop_back() { slices_.pop_back(); } /// recompute the inset parts of the cursor from the document data void updateInsets(Inset * inset); /// fix DocIterator in circumstances that should never happen. /// \return true if the DocIterator was fixed. bool fixIfBroken(); /// Repopulate the slices insets from bottom to top. Useful /// for stable iterators or Undo data. void sanitize(); /// find index of CursorSlice with &cell() == &cell (or -1 if not found) int find(MathData const & cell) const; /// find index of CursorSlice with inset() == inset (or -1 of not found) int find(Inset const * inset) const; /// cut off CursorSlices with index > above and store cut off slices in cut. void cutOff(int above, std::vector & cut); /// cut off CursorSlices with index > above void cutOff(int above); /// push CursorSlices on top void append(std::vector const & x); /// push one CursorSlice on top and set its index and position void append(idx_type idx, pos_type pos); /// docstring getPossibleLabel() const; /// Encoding const * getEncoding() const; private: friend class InsetIterator; friend DocIterator doc_iterator_begin(Buffer const * buf, Inset const * inset); friend DocIterator doc_iterator_end(Buffer const * buf, Inset const * inset); /// explicit DocIterator(Buffer * buf, Inset * inset); /** * Normally, when the cursor is at position i, it is painted *before* * the character at position i. However, what if we want the cursor * painted *after* position i? That's what boundary_ is for: if * boundary_==true, the cursor is painted *after* position i-1, instead * of before position i. * * Note 1: Usually, after i-1 or before i are actually the same place! * However, this is not the case when i-1 and i are not painted * contiguously, and in these cases we sometimes do want to have control * over whether to paint before i or after i-1. * Some concrete examples of where this happens: * a. i-1 at the end of one row, i at the beginning of next row * b. in bidi text, at transitions between RTL and LTR or vice versa * * Note 2: Why i and i-1? Why, if boundary_==false means: *before* i, * couldn't boundary_==true mean: *after* i? * Well, the reason is this: cursor position is not used only for * painting the cursor, but it also affects other things, for example: * where the next insertion will be placed (it is inserted at the current * position, pushing anything at the current position and beyond forward). * Now, when the current position is i and boundary_==true, insertion would * happen *before* i. If the cursor, however, were painted *after* i, that * would be very unnatural... */ bool boundary_; /// std::vector const & internalData() const { return slices_; } /// std::vector slices_; /// Inset * inset_; /// Buffer * buffer_; }; inline bool operator==(DocIterator const & di1, DocIterator const & di2) { return di1.slices_ == di2.slices_; } inline bool operator!=(DocIterator const & di1, DocIterator const & di2) { return !(di1 == di2); } inline bool operator<(DocIterator const & p, DocIterator const & q) { size_t depth = std::min(p.depth(), q.depth()); for (size_t i = 0 ; i < depth ; ++i) { if (p[i] != q[i]) return p[i] < q[i]; } return p.depth() < q.depth(); } inline bool operator>(DocIterator const & p, DocIterator const & q) { return q < p; } inline bool operator<=(DocIterator const & p, DocIterator const & q) { return !(q < p); } inline bool operator>=(DocIterator const & p, DocIterator const & q) { return !(p < q); } // The difference to a ('non stable') DocIterator is the removed // (overwritten by 0...) part of the CursorSlice data items. So this thing // is suitable for external storage, but not for iteration as such. class StableDocIterator { public: /// StableDocIterator() {} /// non-explicit intended StableDocIterator(const DocIterator & it); /// DocIterator asDocIterator(Buffer * buf) const; /// size_t size() const { return data_.size(); } /// return the position within the paragraph pos_type pos() const { return data_.back().pos(); } /// return the position within the paragraph pos_type & pos() { return data_.back().pos(); } /// friend std::ostream & operator<<(std::ostream & os, StableDocIterator const & cur); /// friend std::istream & operator>>(std::istream & is, StableDocIterator & cur); /// friend bool operator==(StableDocIterator const &, StableDocIterator const &); private: std::vector data_; }; } // namespace lyx #endif // DOCITERATOR_H