lyx_mirror/src/Cursor.h

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// -*- C++ -*-
/**
* \file Cursor.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.
*/
/*
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First some explanation about what a Cursor really is, from local to
global.
* a CursorSlice indicates the position of the cursor at local level.
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It contains in particular:
* idx(): the cell that contains the cursor (for Tabular or math
arrays). Always 0 for 'plain' insets
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* pit(): the index of the current paragraph (only for text)
* pos(): the position in the current paragraph (or in the math
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equation in mathed).
* inset(): the inset in which the cursor is. For a InsetTabular,
this is the tabular itself, not the cell inset (which is an
InsetTableCell).
* a DocIterator indicated the position of the cursor in the document.
It knows about the current buffer (buffer() method) and contains a
vector of CursorSlices that describes the nesting of insets up to the
point of interest. Note that operator<< has been implemented, so that
one can send a DocIterator to a stream to see its value. Try it, it is
very helpful to understand the cursor layout.
* when using idx/pit/pos on a DocIterator, one gets the information
from the inner slice (this slice can be accessed as top())
* inMathed() returns true when the cursor is in a math formula
* inTexted() returns true when the cursor is in text
* innerTextSlice() returns the deepest slice that is text (useful
when one is in a math equation and looks for the enclosing text)
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* A CursorData is a descendant of Dociterator that contains
* a second DocIterator object, the anchor, that is useful when
selecting.
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* some other data that describes current selection, cursor font, etc.
This class is mostly used only for undo and contains the Cursor
elements that are not GUI-related. In LyX 2.0, Cursor was directly
deriving from DocIterator
* A Cursor is a descendant of CursorData that contains interesting
display-related information, in particular targetX(), the horizontal
position of the cursor in pixels.
*/
#ifndef LCURSOR_H
#define LCURSOR_H
#include "DispatchResult.h"
#include "DocIterator.h"
#include "Font.h"
#include "Undo.h"
#include "mathed/MathParser_flags.h"
namespace lyx {
class Buffer;
class BufferView;
class FuncStatus;
class FuncRequest;
class Row;
// these should go
class InsetMathUnknown;
class Encoding;
/**
* This class describes the position of a cursor within a document,
* but does not contain any detail about the view. It is currently
* only used to save cursor position in Undo, but culd be extended to
* handle the methods that only need this data.
**/
class CursorData : public DocIterator
{
public:
///
CursorData();
///
explicit CursorData(Buffer * buffer);
///
explicit CursorData(DocIterator const & dit);
/// output
friend std::ostream & operator<<(std::ostream & os, CursorData const & cur);
friend LyXErr & operator<<(LyXErr & os, CursorData const & cur);
protected:
/// the anchor position
DocIterator anchor_;
/// do we have a selection?
bool selection_;
/// are we on the way to get one?
bool mark_;
/// are we in word-selection mode? This is set when double clicking.
bool word_selection_;
// FIXME: make them protected.
public:
/// the current font settings
Font current_font;
/// the current font
Font real_current_font;
protected:
//
// math specific stuff that could be promoted to "global" later
//
/// do we allow autocorrection
bool autocorrect_;
/// are we entering a macro name?
bool macromode_;
};
/// The cursor class describes the position of a cursor within a document.
class Cursor : public CursorData
{
public:
/// create the cursor of a BufferView
explicit Cursor(BufferView & bv);
/// returns true if we made a decision
bool getStatus(FuncRequest const & cmd, FuncStatus & flag) const;
/// dispatch from innermost inset upwards
void dispatch(FuncRequest const & cmd);
/// get the resut of the last dispatch
DispatchResult const & result() const;
/// add a new cursor slice
void push(Inset & inset);
/// add a new cursor slice, place cursor at front (move backwards)
void pushBackward(Inset & inset);
/// pop one level off the cursor
void pop();
/// pop one slice off the cursor stack and go backwards
bool popBackward();
/// pop one slice off the cursor stack and go forward
bool popForward();
/// make sure we are outside of given inset
void leaveInset(Inset const & inset);
/// set the cursor data
void setCursorData(CursorData const & data);
/// sets cursor part
/// this (intentionally) does neither touch anchor nor selection status
void setCursor(DocIterator const & it);
/// set the cursor to dit normalised against the anchor, and set selection.
void setCursorSelectionTo(DocIterator dit);
/// sets the cursor to the normalized selection anchor
void setCursorToAnchor();
///
void setCurrentFont();
//
// selection
//
/// selection active?
bool selection() const { return selection_; }
/// set selection; this is lower level than (set|clear)Selection
void selection(bool sel) { selection_ = sel; }
/// do we have a multicell selection?
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bool selIsMultiCell() const
{ return selection_ && selBegin().idx() != selEnd().idx(); }
/// do we have a multiline selection?
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bool selIsMultiLine() const
{ return selection_ && selBegin().pit() != selEnd().pit(); }
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///
void setWordSelection(bool set) { word_selection_ = set; }
///
bool wordSelection() { return word_selection_; }
/// did we place the anchor?
bool mark() const { return mark_; }
/// did we place the anchor?
void setMark(bool mark) { mark_ = mark; }
///
void setSelection();
/// set selection at given position
void setSelection(DocIterator const & where, int n);
///
void clearSelection();
/// access start of selection
CursorSlice selBegin() const;
/// access end of selection
CursorSlice selEnd() const;
the stuff from the sneak preview: For one, it still contains a few things that are already in CVS (the 'brown paperbag' changes). Secondly, this changes the ParagraphList to a std::vector but does not yet take full advantage of it except removing LyXText::parOffset() and similar. I had an extensive talk with my profiler and we are happy nevertheless. This also moves almost all Cut&Paste specific stuff from text.C to CutAndPaste.C. Much smaller interface now... Namespace CutAndPaste is now lyx::cap::. Was inconsistent with the rest.... Make ParagraphList a proper class. We'll need this later for a specialized erase/insert. Remove some unneeded prototypes and function declarations Use ParameterStruct directly instead of ShareContainer<ParameterStruct> Inline a few accesses to CursorSlice members as suggested by the profiler. Fix commandline conversion crash reported by Kayvan. Replace PosIterator by DocumentIterator. The latter can also iterate through math and nested text in math... Remove math specific hack from Documentiterator Derive InsetCollapsable from InsetText instead of using an InsetText member. This give us the opportunity to get rid of the InsetOld::owner_ backpointer. Cosmetics in CutAndPaste.C and cursor.C. Fix nasty crash (popping slices off an empty selection anchor). Add a few asserts. Remove all 'manual' update calls. We do now one per user interaction which is completely sufficient. git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@8527 a592a061-630c-0410-9148-cb99ea01b6c8
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/// access start of selection
DocIterator selectionBegin() const;
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/// access end of selection
DocIterator selectionEnd() const;
/**
* Update the selection status and save permanent
* selection if needed.
* @param selecting the new selection status
* @return whether the selection status has changed
*/
bool selHandle(bool selecting);
///
docstring selectionAsString(bool with_label) const;
///
docstring currentState(bool devel_mode) const;
/// auto-correct mode
bool autocorrect() const { return autocorrect_; }
/// auto-correct mode
bool & autocorrect() { return autocorrect_; }
/// are we entering a macro name?
bool macromode() const { return macromode_; }
/// are we entering a macro name?
bool & macromode() { return macromode_; }
/// returns x,y position
void getPos(int & x, int & y) const;
/// return logical positions between which the cursor is situated
/**
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* If the cursor is at the edge of a row, the position which is "over the
* edge" will be returned as -1.
*/
void getSurroundingPos(pos_type & left_pos, pos_type & right_pos) const;
/// the row in the paragraph we're in
Row const & textRow() const;
//
// common part
//
/// move visually one step to the right
/**
* @note: This method may move into an inset unless skip_inset == true.
* @note: This method may move into a new paragraph.
* @note: This method may move out of the current slice.
* @return: true if moved, false if not moved
*/
bool posVisRight(bool skip_inset = false);
/// move visually one step to the left
/**
* @note: This method may move into an inset unless skip_inset == true.
* @note: This method may move into a new paragraph.
* @note: This method may move out of the current slice.
* @return: true if moved, false if not moved
*/
bool posVisLeft(bool skip_inset = false);
/// move visually to next/previous row
/**
* Assuming we were to keep moving left (right) from the current cursor
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* position, place the cursor at the rightmost (leftmost) edge of the
* new row to which we would move according to visual-mode cursor movement.
* This could be either the next or the previous row, depending on the
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* direction in which we're moving, and whether we're in an LTR or RTL
* paragraph.
* @note: The new position may even be in a new paragraph.
* @note: This method will not move out of the current slice.
* @return: false if not moved (no more rows to move to in given direction)
* @return: true if moved
*/
bool posVisToNewRow(bool movingLeft);
/// move to right or left extremity of the current row
void posVisToRowExtremity(bool left);
/// Should interpretation of the arrow keys be reversed?
bool reverseDirectionNeeded() const;
/// insert an inset
void insert(Inset *);
/// insert a single char
void insert(char_type c);
/// insert a string
void insert(docstring const & str);
/// FIXME: rename to something sensible showing difference to x_target()
/// in pixels from left of screen, set to current position if unset
int targetX() const;
/// set the targetX to x
void setTargetX(int x);
/// return targetX or -1 if unset
int x_target() const;
/// set targetX to current position
void setTargetX();
/// clear targetX, i.e. set it to -1
void clearTargetX();
/// set offset to actual position - targetX
void updateTextTargetOffset();
/// distance between actual and targeted position during last up/down in text
int textTargetOffset() const;
/// access to normalized selection anchor
CursorSlice normalAnchor() const;
/// access to real selection anchor
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DocIterator const & realAnchor() const { return anchor_; }
DocIterator & realAnchor() { return anchor_; }
/// sets anchor to cursor position
void resetAnchor();
/// access to owning BufferView
BufferView & bv() const;
/// get some interesting description of top position
void info(odocstream & os, bool devel_mode) const;
/// are we in math mode (2), text mode (1) or unsure (0)?
int currentMode();
/// reset cursor bottom to the beginning of the top inset
// (sort of 'chroot' environment...)
void reset();
/// for spellchecking
void replaceWord(std::string const & replacestring);
/**
* the event was not (yet) dispatched.
*
* Should only be called by an inset's doDispatch() method. It means:
* I, the doDispatch() method of InsetFoo, hereby declare that I am
* not able to handle that request and trust my parent will do the
* Right Thing (even if my getStatus partner said that I can do it).
* It is sort of a kludge that should be used only rarely...
*/
void undispatched() const;
/// the event was already dispatched
void dispatched() const;
/// Set which screen update should be done
void screenUpdateFlags(Update::flags f) const;
/// Forces an updateBuffer() call
void forceBufferUpdate() const;
/// Removes any pending updateBuffer() call
void clearBufferUpdate() const;
/// Do we need to call updateBuffer()?
bool needBufferUpdate() const;
/**
* don't call update() when done
*
* Should only be called by an inset's doDispatch() method. It means:
* I handled that request and I can reassure you that the screen does
* not need to be re-drawn and all entries in the coord cache stay
* valid (and there are no other things to put in the coord cache).
* This is a fairly rare event as well and only some optimization.
* Not using noScreenUpdate() should never be wrong.
*/
void noScreenUpdate() const;
/// fix cursor in circumstances that should never happen.
/// \retval true if a fix occurred.
bool fixIfBroken();
/// Repopulate the slices insets from bottom to top. Useful
/// for stable iterators or Undo data.
void sanitize();
///
bool textUndo();
///
bool textRedo();
/// makes sure the next operation will be stored
void finishUndo() const;
/// open a new group of undo operations. Groups can be nested.
void beginUndoGroup() const;
/// end the current undo group
void endUndoGroup() const;
/// The general case: prepare undo for an arbitrary range.
void recordUndo(pit_type from, pit_type to) const;
/// Convenience: prepare undo for the range between 'from' and cursor.
void recordUndo(pit_type from) const;
/// Convenience: prepare undo for the single paragraph or cell
/// containing the cursor
void recordUndo(UndoKind kind = ATOMIC_UNDO) const;
/// Convenience: prepare undo for the inset containing the cursor
void recordUndoInset(Inset const * inset = 0) const;
/// Convenience: prepare undo for the whole buffer
void recordUndoFullBuffer() const;
/// Convenience: prepare undo for buffer parameters
void recordUndoBufferParams() const;
/// Convenience: prepare undo for the selected paragraphs or cells
void recordUndoSelection() const;
///
void checkBufferStructure();
/// hook for text input to maintain the "new born word"
void markNewWordPosition();
/// The position of the new born word
/// As the user is entering a word without leaving it
/// the result is not empty. When not in text mode
/// and after leaving the word the result is empty.
DocIterator newWord() const { return new_word_; }
/// Return true if the next or previous inset has confirmDeletion depending
/// on the boolean before. If there is a selection, return true if at least
/// one inset in the selection has confirmDeletion.
bool confirmDeletion(bool before = false) const;
/// Determine if x falls to the left or to the side of the middle of the
/// inset, and advance the cursor to match this position. If edit is true,
/// keep the cursor in front of the inset if it matter for dialogs.
/// Note: it does not handle RTL text yet, and is only used in math for now.
void moveToClosestEdge(int x, bool edit = false);
public:
//private:
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///
DocIterator const & beforeDispatchCursor() const { return beforeDispatchCursor_; }
///
void saveBeforeDispatchPosXY();
private:
/// validate the "new born word" position
void checkNewWordPosition();
/// clear the "new born word" position
void clearNewWordPosition();
private:
///
BufferView * bv_;
///
mutable DispatchResult disp_;
/**
* The target x position of the cursor. This is used for when
* we have text like :
*
* blah blah blah blah| blah blah blah
* blah blah blah
* blah blah blah blah blah blah
*
* When we move onto row 3, we would like to be vertically aligned
* with where we were in row 1, despite the fact that row 2 is
* shorter than x()
*/
int x_target_;
/// if a x_target cannot be hit exactly in a text, put the difference here
int textTargetOffset_;
/// the start of the new born word
DocIterator new_word_;
/// position before dispatch started
DocIterator beforeDispatchCursor_;
/// cursor screen coordinates before dispatch started
int beforeDispatchPosX_;
int beforeDispatchPosY_;
///////////////////////////////////////////////////////////////////
//
// The part below is the non-integrated rest of the original math
// cursor. This should be either generalized for texted or moved
// back to the math insets.
//
///////////////////////////////////////////////////////////////////
public:
///
void insert(MathAtom const &);
///
void insert(MathData const &);
/// return false for empty math insets
/// Use force to skip the confirmDeletion check.
bool erase(bool force = false);
bool backspace(bool force = false);
/// move the cursor up by sending an internal LFUN_UP
/// return true if fullscreen update is needed
bool up();
/// move the cursor up by sending an internal LFUN_DOWN,
/// return true if fullscreen update is needed
bool down();
/// whether the cursor is either at the first or last row
bool atFirstOrLastRow(bool up);
/// move up/down in a text inset, called for LFUN_UP/DOWN,
/// return true if successful, updateNeeded set to true if fullscreen
/// update is needed, otherwise it's not touched
bool upDownInText(bool up, bool & updateNeeded);
/// move up/down in math or any non text inset, call for LFUN_UP/DOWN
/// return true if successful
bool upDownInMath(bool up);
///
InsetMath & nextMath();
///
InsetMath & prevMath();
/// move forward in math. word: whether to skip a whole "word" (insets with
/// the same mathclass)
bool mathForward(bool word);
///
bool mathBackward(bool word);
///
void plainErase();
///
void plainInsert(MathAtom const & at);
///
void niceInsert(MathAtom const & at);
/// return the number of inserted array items
int niceInsert(docstring const & str, Parse::flags f = Parse::NORMAL,
bool enter = true);
/// in pixels from top of screen
void setScreenPos(int x, int y);
/// current offset in the top cell
/// interpret name a name of a macro. Returns true if
/// something got inserted.
bool macroModeClose();
/// are we currently typing the name of a macro?
bool inMacroMode() const;
/// get access to the macro we are currently typing
InsetMathUnknown * activeMacro();
/// get access to the macro we are currently typing
InsetMathUnknown const * activeMacro() const;
/// replace selected stuff with at, placing the former
// selection in given cell of atom
void handleNest(MathAtom const & at, int cell = 0);
///
bool isInside(Inset const *) const;
/// make sure cursor position is valid
/// FIXME: It does a subset of fixIfBroken. Maybe merge them?
void normalize();
/// mark current cursor trace for redraw
void touch();
/// hack for reveal codes
void markInsert();
void markErase();
/// injects content of a cell into parent
void pullArg();
/// split font inset etc
void handleFont(std::string const & font);
/// display a message
void message(docstring const & msg) const;
/// display an error message
void errorMessage(docstring const & msg) const;
///
docstring getPossibleLabel() const;
/// the name of the macro we are currently inputting
docstring macroName();
/// where in the curent cell does the macro name start?
int macroNamePos();
/// can we enter the inset?
bool openable(MathAtom const &) const;
///
Encoding const * getEncoding() const;
/// font at cursor position
Font getFont() const;
};
/**
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* Notifies all insets which appear in \c old, but not in \c cur. And then
* notify all insets which appear in \c cur, but not in \c old.
* \returns true if cursor is now invalid, e.g. if some insets in
* higher cursor slices of \c old do not exist anymore. In this case
* it may be necessary to use Use Cursor::fixIfBroken.
*/
bool notifyCursorLeavesOrEnters(Cursor const & old, Cursor & cur);
} // namespace lyx
#endif // LYXLCURSOR_H