// The public inheritance should go in favour of a suitable data member
// (or maybe private inheritance) at some point of time.
-class DocIterator : public std::vector<CursorSlice>
+class DocIterator // : public std::vector<CursorSlice>
{
public:
/// type for cell number in inset
typedef CursorSlice::idx_type idx_type;
/// type for paragraph numbers positions within a cell
- typedef CursorSlice::par_type par_type;
+ typedef CursorSlice::pit_type pit_type;
/// type for cursor positions within a cell
typedef CursorSlice::pos_type pos_type;
/// type for row indices
///
explicit DocIterator(InsetBase & inset);
+ /// 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?
operator const void*() const { return empty() ? 0 : this; }
/// is this iterator invalid?
bool operator!() const { return empty(); }
+ /// does this iterator have any content?
+ bool empty() const { return slices_.empty(); }
+
//
// access to slice at tip
//
/// access to tip
- CursorSlice & top() { return back(); }
+ CursorSlice & top() { return slices_.back(); }
/// access to tip
- CursorSlice const & top() const { return back(); }
+ CursorSlice const & top() const { return slices_.back(); }
/// access to outermost slice
- CursorSlice & bottom() { return front(); }
- /// access to outermost slicetip
- CursorSlice const & bottom() const { return front(); }
+ 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 size(); }
+ size_t depth() const { return slices_.size(); }
/// the containing inset
- InsetBase & inset() const { return back().inset(); }
+ InsetBase & inset() const { return top().inset(); }
/// return the cell of the inset this cursor is in
- idx_type idx() const { return back().idx(); }
+ idx_type idx() const { return top().idx(); }
/// return the cell of the inset this cursor is in
- idx_type & idx() { return back().idx(); }
+ 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
- par_type par() const { return back().par(); }
+ pit_type pit() const { return top().pit(); }
/// return the paragraph this cursor is in
- par_type & par() { return back().par(); }
+ pit_type & pit() { return top().pit(); }
/// return the last possible paragraph in this inset
- par_type lastpar() const;
+ pit_type lastpit() const;
/// return the position within the paragraph
- pos_type pos() const { return back().pos(); }
+ pos_type pos() const { return top().pos(); }
/// return the position within the paragraph
- pos_type & pos() { return back().pos(); }
+ pos_type & pos() { return top().pos(); }
/// return the last position within the paragraph
pos_type lastpos() const;
- /// return the display row of the cursor with in the top par
- row_type crow() const;
- /// return the display row of the cursor with in the top par
- row_type lastcrow() const;
/// return the number of embedded cells
size_t nargs() const;
InsetBase * prevInset();
/// the inset just in front of the cursor
InsetBase const * prevInset() const;
+ ///
+ bool boundary() const { return boundary_; }
+ ///
+ void boundary(bool b) { boundary_ = b; }
/// are we in mathed?
bool inMathed() const;
//
// text-specific part
//
- /// see comment for boundary_ below
- bool boundary() const { return top().boundary(); }
- /// see comment for boundary_ below
- bool & boundary() { return top().boundary(); }
/// the paragraph we're in
Paragraph & paragraph();
/// the paragraph we're in
/// the row in the paragraph we're in
Row const & textRow() const;
///
- LyXText * text() const;
+ LyXText * text();
+ ///
+ LyXText const * text() const;
+ /// the containing inset or the cell, respectively
+ InsetBase * realInset() const;
///
InsetBase * innerInsetOfType(int code) const;
///
- LyXText * innerText() const;
+ LyXText * innerText();
+ ///
+ LyXText const * innerText() const;
//
// elementary moving
//
- /// move on one logical position
- void forwardPos();
+ /// move on one logical position, do not descend into nested insets
+ void forwardPosNoDescend();
+ /**
+ * move on one logical position, descend into nested insets
+ * skip collapsed insets if \p ignorecollapsed is true
+ */
+ void forwardPos(bool ignorecollapsed = false);
/// move on one physical character or inset
void forwardChar();
/// move on one paragraph
/// move backward one inset
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 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(InsetBase * inset);
+
private:
+ /**
+ * When the cursor position is i, is the cursor after the i-th char
+ * or before the i+1-th char ? Normally, these two interpretations are
+ * equivalent, except when the fonts of the i-th and i+1-th char
+ * differ.
+ * We use boundary_ to distinguish between the two options:
+ * If boundary_=true, then the cursor is after the i-th char
+ * and if boundary_=false, then the cursor is before the i+1-th char.
+ *
+ * We currently use the boundary only when the language direction of
+ * the i-th char is different than the one of the i+1-th char.
+ * In this case it is important to distinguish between the two
+ * cursor interpretations, in order to give a reasonable behavior to
+ * the user.
+ */
+ bool boundary_;
+ ///
+ std::vector<CursorSlice> const & internalData() const {
+ return slices_;
+ }
+ ///
+ std::vector<CursorSlice> slices_;
+ ///
InsetBase * inset_;
};
DocIterator doc_iterator_end(InsetBase & inset);
+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);
+}
+
+
// The difference to a ('non stable') DocIterator is the removed
// (overwritte by 0...) part of the CursorSlice data items. So this thing
// is suitable for external storage, but not for iteration as such.
DocIterator asDocIterator(InsetBase * start) const;
///
size_t size() const { return data_.size(); }
+ /// type for cursor positions within a cell
+ typedef CursorSlice::pos_type pos_type;
+ /// 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<CursorSlice> data_;
};
-bool operator==(StableDocIterator const &, StableDocIterator const &);
-
#endif