// -*- C++ -*- /** * \file Inset.h * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Alejandro Aguilar Sierra * \author Jürgen Vigna * \author Lars Gullik Bjønnes * \author Matthias Ettrich * * Full author contact details are available in file CREDITS. */ #ifndef INSETBASE_H #define INSETBASE_H #include "ColorCode.h" #include "InsetCode.h" #include "InsetLayout.h" #include "LayoutEnums.h" #include "OutputEnums.h" #include "OutputParams.h" #include "support/strfwd.h" #include "support/types.h" #include "support/FileNameList.h" #include namespace lyx { class BiblioInfo; class Buffer; class BufferView; class Change; class CompletionList; class Cursor; class CursorSlice; class Dimension; class DocIterator; class Encoding; class FuncRequest; class FuncStatus; class InsetArgument; class InsetCollapsible; class InsetCommand; class InsetGraphics; class InsetIterator; class InsetLayout; class InsetList; class InsetMath; class InsetTabular; class InsetText; class LaTeXFeatures; class Lexer; class MathAtom; class MetricsInfo; class OutputParams; class PainterInfo; class ParConstIterator; class ParIterator; class Text; class TocBackend; class TocList; class XMLStream; class otexstream; namespace graphics { class PreviewLoader; } /// returns the InsetCode corresponding to the \c name. /// Eg, insetCode("branch") == BRANCH_CODE InsetCode insetCode(std::string const & name); /// returns the Inset name corresponding to the \c InsetCode. /// Eg, insetName(BRANCH_CODE) == "branch" std::string insetName(InsetCode); /// returns the Inset name corresponding to the \c InsetCode. /// Eg, insetDisplayName(BRANCH_CODE) == _("Branch") docstring insetDisplayName(InsetCode); /// static int const TOC_ENTRY_LENGTH = 120; /// Common base class to all insets // Do not add _any_ (non-static) data members as this would inflate // everything storing large quantities of insets. Mathed e.g. would // suffer. class Inset { public: /// enum EntryDirection { ENTRY_DIRECTION_IGNORE, ENTRY_DIRECTION_RIGHT, ENTRY_DIRECTION_LEFT }; /// typedef ptrdiff_t difference_type; /// short of anything else reasonable typedef size_t size_type; /// type for cell indices typedef size_t idx_type; /// type for cursor positions typedef ptrdiff_t pos_type; /// type for row numbers typedef size_t row_type; /// type for column numbers typedef size_t col_type; /// virtual base class destructor virtual ~Inset() {} /// change associated Buffer virtual void setBuffer(Buffer & buffer); /// reset associated Buffer to null value virtual void resetBuffer(); /// retrieve associated Buffer Buffer & buffer(); Buffer const & buffer() const; /// Returns true if buffer_ actually points to a Buffer that has /// been loaded into LyX and is still open. Note that this will /// always return false for cloned Buffers. If you want to allow /// for the case of cloned Buffers, use isBufferValid(). bool isBufferLoaded() const; /// Returns true if this is a loaded buffer or a cloned buffer. bool isBufferValid() const; /// initialize view for this inset. /** * This is typically used after this inset is created interactively. * Intended purpose is to sanitize internal state with regard to current * Buffer. **/ virtual void initView() {} /// \return true if this inset is labeled. virtual bool isLabeled() const { return false; } /// identification as math inset virtual InsetMath * asInsetMath() { return 0; } /// identification as math inset virtual InsetMath const * asInsetMath() const { return 0; } /// true for 'math' math inset, but not for e.g. mbox virtual bool inMathed() const { return false; } /// is this inset based on the InsetText class? virtual InsetText * asInsetText() { return 0; } /// is this inset based on the InsetText class? virtual InsetText const * asInsetText() const { return 0; } /// is this inset based on the InsetCollapsible class? virtual InsetCollapsible * asInsetCollapsible() { return 0; } /// is this inset based on the InsetCollapsible class? virtual InsetCollapsible const * asInsetCollapsible() const { return 0; } /// is this inset based on the InsetTabular class? virtual InsetTabular * asInsetTabular() { return 0; } /// is this inset based on the InsetTabular class? virtual InsetTabular const * asInsetTabular() const { return 0; } /// is this inset based on the InsetCommand class? virtual InsetCommand * asInsetCommand() { return 0; } /// is this inset based on the InsetCommand class? virtual InsetCommand const * asInsetCommand() const { return 0; } /// is this inset based on the InsetArgument class? virtual InsetArgument const * asInsetArgument() const { return nullptr; } /// is this inset based on the InsetGraphics class? virtual InsetGraphics * asInsetGraphics() { return 0; } /// is this inset based on the InsetGraphics class? virtual InsetGraphics const * asInsetGraphics() const { return 0; } /// the real dispatcher void dispatch(Cursor & cur, FuncRequest & cmd); /** * \returns true if this function made a definitive decision on * whether the inset wants to handle the request \p cmd or not. * The result of this decision is put into \p status. * * Every request that is enabled in this method needs to be handled * in doDispatch(). Normally we have a 1:1 relationship between the * requests handled in getStatus() and doDispatch(), but there are * some exceptions: * - A request that is disabled in getStatus() does not need to * appear in doDispatch(). It is guaranteed that doDispatch() * is never called with this request. * - A few requests are en- or disabled in Inset::getStatus(). * These need to be handled in the doDispatch() methods of the * derived insets, since Inset::doDispatch() has not enough * information to handle them. * - LFUN_MOUSE_* need not to be handled in getStatus(), because these * are dispatched directly */ virtual bool getStatus(Cursor & cur, FuncRequest const & cmd, FuncStatus & status) const; /// cursor enters virtual void edit(Cursor & cur, bool front, EntryDirection entry_from = ENTRY_DIRECTION_IGNORE); /// sets cursor recursively descending into nested editable insets /** \return the inset pointer if x,y is covering that inset \param x,y are absolute screen coordinates. */ /// Note: this method must preserve the selection status. See: /// https://www.mail-archive.com/lyx-devel@lists.lyx.org/msg199001.html virtual Inset * editXY(Cursor & cur, int x, int y); /// The default margin inside text insets static int textOffset(BufferView const *) { return 4; } /// virtual int topOffset(BufferView const *bv) const { return textOffset(bv); } /// virtual int bottomOffset(BufferView const *bv) const { return textOffset(bv); } /// virtual int leftOffset(BufferView const *bv) const { return textOffset(bv); } /// virtual int rightOffset(BufferView const *bv) const { return textOffset(bv); } /// compute the size of the object returned in dim virtual void metrics(MetricsInfo & mi, Dimension & dim) const = 0; /// draw inset and update (xo, yo)-cache virtual void draw(PainterInfo & pi, int x, int y) const = 0; /// draw inset selection if necessary virtual void drawSelection(PainterInfo &, int, int) const {} /// draw inset background if the inset has an own background and a /// selection is drawn by drawSelection. virtual void drawBackground(PainterInfo &, int, int) const; /// virtual bool editing(BufferView const * bv) const; /// virtual bool showInsetDialog(BufferView *) const; /// draw two angular markers virtual void drawMarkers(PainterInfo & pi, int x, int y) const; /// add space for markers void metricsMarkers(Dimension & dim, int framesize = 1) const; /// add space for markers void metricsMarkers2(Dimension & dim, int framesize = 1) const; /// draw inset decoration if necessary. /// This can use \c drawMarkers() for example. virtual void drawDecoration(PainterInfo &, int, int) const {} /// last metrics computed for the inset Dimension const dimension(BufferView const &) const; /// last drawn position for 'important' insets int xo(BufferView const & bv) const; /// last drawn position for 'important' insets int yo(BufferView const & bv) const; /// do we cover screen position x/y? bool covers(BufferView const & bv, int x, int y) const; /// get the screen positions of the cursor (see note in Cursor.cpp) virtual void cursorPos(BufferView const & bv, CursorSlice const & sl, bool boundary, int & x, int & y) const; /// Allow multiple blanks virtual bool isFreeSpacing() const; /// Don't eliminate empty paragraphs virtual bool allowEmpty() const; /// Force inset into LTR environment if surroundings are RTL virtual bool forceLTR(OutputParams const &) const; /// whether to include this inset in the strings generated for the TOC virtual bool isInToc() const; /// Where should we go when we press the up or down cursor key? virtual bool idxUpDown(Cursor & cur, bool up) const; /// Move one cell backwards virtual bool idxBackward(Cursor &) const { return false; } /// Move one cell forward virtual bool idxForward(Cursor &) const { return false; } /// Move to the next cell virtual bool idxNext(Cursor &) const { return false; } /// Move to the previous cell virtual bool idxPrev(Cursor &) const { return false; } /// Target pos when we enter the inset while moving forward virtual bool idxFirst(Cursor &) const { return false; } /// Target pos when we enter the inset while moving backwards virtual bool idxLast(Cursor &) const { return false; } /// Delete a cell and move cursor virtual bool idxDelete(idx_type &) { return false; } /// pulls cell after pressing erase virtual void idxGlue(idx_type) {} /// returns list of cell indices that are "between" from and to for /// selection purposes virtual bool idxBetween(idx_type idx, idx_type from, idx_type to) const; /// to which column belongs a cell with a given index? virtual col_type col(idx_type) const { return 0; } /// to which row belongs a cell with a given index? virtual row_type row(idx_type) const { return 0; } /// cell index corresponding to row and column; virtual idx_type index(row_type row, col_type col) const; /// number of embedded cells virtual size_t nargs() const { return 0; } /// number of rows in gridlike structures virtual size_t nrows() const { return 0; } /// number of columns in gridlike structures virtual size_t ncols() const { return 0; } /// Is called when the cursor leaves this inset. /// Returns true if cursor is now invalid, e.g. if former /// insets in higher cursor slices of \c old do not exist /// anymore. /// \c old is the old cursor, the last slice points to this. /// \c cur is the new cursor. Use the update flags to cause a redraw. virtual bool notifyCursorLeaves(Cursor const & /*old*/, Cursor & /*cur*/) { return false; } /// Is called when the cursor enters this inset. /// Returns true if cursor is now invalid, e.g. if former /// insets in higher cursor slices of \c old do not exist /// anymore. /// \c cur is the new cursor, some slice points to this. Use the update /// flags to cause a redraw. virtual bool notifyCursorEnters(Cursor & /*cur*/) { return false; } /// is called when the mouse enters or leaves this inset /// return true if this inset needs a repaint virtual bool setMouseHover(BufferView const *, bool) const { return false; } /// return true if this inset is hovered (under mouse) /// This is by now only used by mathed to draw corners /// (Inset::drawMarkers() and Inset::drawMarkers2()). /// Other insets do not have to redefine this function to /// return the correct status of mouseHovered. virtual bool mouseHovered(BufferView const *) const { return false; } /// request "external features" virtual void validate(LaTeXFeatures &) const {} /// Validate LFUN_INSET_MODIFY argument. virtual bool validateModifyArgument(docstring const &) const { return true; } /// describe content if cursor inside virtual void infoize(odocstream &) const {} /// describe content if cursor behind virtual void infoize2(odocstream &) const {} enum { PLAINTEXT_NEWLINE = 10000 }; /// plain text output in ucs4 encoding /// return the number of characters; in case of multiple lines of /// output, add PLAINTEXT_NEWLINE to the number of chars in the last line virtual int plaintext(odocstringstream &, OutputParams const &, size_t max_length = INT_MAX) const = 0; /// docbook output virtual void docbook(XMLStream &, OutputParams const &) const; /// XHTML output /// the inset is expected to write XHTML to the XMLStream /// \return any "deferred" material that should be written outside the /// normal stream, and which will in fact be written after the current /// paragraph closes. this is appropriate e.g. for floats. virtual docstring xhtml(XMLStream &, OutputParams const &) const; /// Writes a string representation of the inset to the odocstream. /// This one should be called when you want the whole contents of /// the inset. virtual void toString(odocstream &) const {} /// Appends a potentially abbreviated version of the inset to /// \param str. Intended for use by the TOC. virtual void forOutliner(docstring & str, size_t const maxlen = TOC_ENTRY_LENGTH, bool const shorten = true) const; /// Can a cursor be put in there ? /// Forced to false for insets that have hidden contents, like /// InsetMathCommand and InsetInfo. virtual bool isActive() const { return nargs() > 0; } /// can the contents of the inset be edited on screen ? // equivalent to isActive except for closed InsetCollapsible virtual bool editable() const; /// has the Inset settings that can be modified in a dialog ? virtual bool hasSettings() const; /// can we go further down on mouse click? /// true for InsetCaption, InsetCollapsibles (not ButtonOnly), InsetTabular virtual bool descendable(BufferView const &) const { return false; } /// can we click at the specified position ? virtual bool clickable(BufferView const &, int, int) const { return false; } /// Move one cell backwards virtual bool allowsCaptionVariation(std::string const &) const { return false; } // true for insets that have a table structure (InsetMathGrid, InsetTabular) virtual bool isTable() const { return false; } /// does this contain text that can be change track marked in DVI? virtual bool canTrackChanges() const { return false; } /// Will this inset paint its own change tracking status (in the parent /// paragraph) or will it let RowPainter handle it? virtual bool canPaintChange(BufferView const &) const { return false; } /// return true if the inset should be removed automatically virtual bool autoDelete() const; /// Returns true if the inset supports completions. virtual bool completionSupported(Cursor const &) const { return false; } /// Returns true if the inset supports inline completions at the /// cursor position. In this case the completion might be stored /// in the BufferView's inlineCompletion property. virtual bool inlineCompletionSupported(Cursor const & /*cur*/) const { return false; } /// Return true if the inline completion should be automatic. virtual bool automaticInlineCompletion() const { return true; } /// Return true if the popup completion should be automatic. virtual bool automaticPopupCompletion() const { return true; } /// Return true if the cursor should indicate a completion. virtual bool showCompletionCursor() const { return true; } /// Returns completion suggestions at cursor position. Return an /// null pointer if no completion is a available or possible. /// The caller is responsible to free the returned object! virtual CompletionList const * createCompletionList(Cursor const &) const { return 0; } /// Returns the completion prefix to filter the suggestions for completion. /// This is only called if completionList returned a non-null list. virtual docstring completionPrefix(Cursor const &) const; /// Do a completion at the cursor position. Return true on success. /// The completion does not contain the prefix. If finished is true, the /// completion is final. If finished is false, completion might only be /// a partial completion. virtual bool insertCompletion(Cursor & /*cur*/, docstring const & /*completion*/, bool /*finished*/) { return false; } /// Get the completion inset position and size virtual void completionPosAndDim(Cursor const &, int & /*x*/, int & /*y*/, Dimension & /*dim*/) const {} /// returns true if the inset can hold an inset of given type virtual bool insetAllowed(InsetCode) const { return false; } /// should this inset use the empty layout by default rather than /// the standard layout? (default: only if that is forced.) virtual bool usePlainLayout() const { return forcePlainLayout(); } /// if this inset has paragraphs should they be forced to use the /// empty layout? virtual bool forcePlainLayout(idx_type = 0) const { return false; } /// if this inset has paragraphs should the user be allowed to /// customize alignment, etc? virtual bool allowParagraphCustomization(idx_type = 0) const { return true; } /// Is the width forced to some value? virtual bool hasFixedWidth() const { return false; } /// if this inset has paragraphs should they be forced to use a /// local font language switch? virtual bool forceLocalFontSwitch() const { return false; } /// if this inset has paragraphs should they be forced to use a /// font language switch that switches paragraph directions /// (relevant with polyglossia only)? virtual bool forceParDirectionSwitch() const { return false; } /// Does the inset force a specific encoding? virtual Encoding const * forcedEncoding(Encoding const *, Encoding const *) const { return 0; } /// Is the content of this inset part of the output document? virtual bool producesOutput() const { return true; } /// Is the content of this inset part of the immediate (visible) text sequence? virtual bool isPartOfTextSequence() const { return producesOutput(); } /// \return Tool tip for this inset. /// This default implementation returns an empty string. This can be /// either plain text or Qt html, and formatToolTip will be called /// on it before display in both cases. virtual docstring toolTip(BufferView const & bv, int x, int y) const; /// \return Context menu identifier. This function determines /// whose Inset's menu should be shown for the given position. virtual std::string contextMenu(BufferView const & bv, int x, int y) const; /// \return Context menu identifier for this inset. /// This default implementation returns an empty string. virtual std::string contextMenuName() const; virtual docstring layoutName() const; /// virtual InsetLayout const & getLayout() const; /// virtual bool isPassThru() const { return getLayout().isPassThru(); } /// Is this inset embedded in a title? virtual bool isInTitle() const { return false; } /// Is this inset's layout defined in the document's textclass? bool undefined() const; /// should this inset be handled like a normal character? /// (a character can be a letter or punctuation) virtual bool isChar() const { return false; } /// is this equivalent to a letter? /// (a letter is a character that is considered part of a word) virtual bool isLetter() const { return false; } /// is this equivalent to a space (which is BTW different from /// a line separator)? virtual bool isSpace() const { return false; } /// does this inset try to use all available space (like \\hfill does)? virtual bool isHfill() const { return false; } virtual OutputParams::CtObject CtObject(OutputParams const &) const { return OutputParams::CT_NORMAL; } enum RowFlags { Inline = 0, // break row before this inset BreakBefore = 1 << 0, // break row after this inset BreakAfter = 1 << 1, // it is possible to break after this inset CanBreakAfter = 1 << 2, // force new (maybe empty) row after this inset RowAfter = 1 << 3, // specify an alignment (left, right) for a display inset // (default is center) AlignLeft = 1 << 4, AlignRight = 1 << 5, // A display inset breaks row at both ends Display = BreakBefore | BreakAfter }; /// How should this inset be displayed in its row? virtual RowFlags rowFlags() const { return Inline; } /// indentation before this inset (only needed for displayed hull insets with fleqn option) virtual int indent(BufferView const &) const { return 0; } /// virtual LyXAlignment contentAlignment() const { return LYX_ALIGN_NONE; } /// should we break lines after this inset? virtual bool isLineSeparator() const { return false; } /// should paragraph indentation be omitted in any case? virtual bool neverIndent() const { return false; } /// dumps content to lyxerr virtual void dump() const; /// write inset in .lyx format virtual void write(std::ostream &) const {} /// read inset in .lyx format virtual void read(Lexer &) {} /** Export the inset to LaTeX. * Don't use a temporary stringstream if the final output is * supposed to go to a file. * \sa Buffer::writeLaTeXSource for the reason. */ virtual void latex(otexstream &, OutputParams const &) const {} /// returns true to override begin and end inset in file virtual bool directWrite() const; /// virtual bool allowSpellCheck() const { return false; } /// if this insets owns text cells (e.g. InsetText) return cell num virtual Text * getText(int /*num*/) const { return 0; } /** Adds a LaTeX snippet to the Preview Loader for transformation * into a bitmap image. Does not start the loading process. * * Most insets have no interest in this capability, so the method * defaults to empty. */ virtual void addPreview(DocIterator const &, graphics::PreviewLoader &) const {} /** Classifies the unicode characters appearing in a math inset * depending on whether they are to be translated as latex * math/text commands or used as math symbols without translation. * * Only math insets have interest in this classification, so the * method defaults to empty. */ virtual void initUnicodeMath() const {} /// Add an entry to the TocList /// Pass a DocIterator that points at the paragraph containing /// the inset /// /// \param output_active : is the inset active or is it in an inactive /// branch or a note? /// /// \param utype : is the toc being generated for use by the output /// routines? /// /// \param tocbackend : where to add the toc information. virtual void addToToc(DocIterator const & /* di */, bool /* output_active */, UpdateType /* utype*/, TocBackend & /* tocbackend */) const {} /// Collect BibTeX information virtual void collectBibKeys(InsetIterator const &, support::FileNameList &) const {} /// Update the counters of this inset and of its contents. /// The boolean indicates whether we are preparing for output, e.g., /// of XHTML. virtual void updateBuffer(ParIterator const &, UpdateType, bool const) {} /// Updates the inset's dialog virtual Buffer const * updateFrontend() const; public: /// returns LyX code associated with the inset. Used for TOC, ...) virtual InsetCode lyxCode() const { return NO_CODE; } /// enum mode_type {UNDECIDED_MODE, TEXT_MODE, MATH_MODE}; /// return text or mathmode if that is possible to determine virtual mode_type currentMode() const { return UNDECIDED_MODE; } /// returns whether changing mode during latex export is forbidden virtual bool lockedMode() const { return false; } /// returns whether only ascii chars are allowed during latex export virtual bool asciiOnly() const { return false; } /// returns whether this inset is allowed in other insets of given mode virtual bool allowedIn(mode_type) const { return true; } /** * The font is inherited from the parent for LaTeX export if this * method returns true. No open font changes are closed in front of * the inset for LaTeX export, and the font is inherited for all other * exports as well as on screen. * If this method returns false all open font changes are closed in * front of the inset for LaTeX export. The default font is used * inside the inset for all exports and on screen. */ virtual bool inheritFont() const { return true; } /** * If this method returns true all explicitly set font attributes * are reset during editing operations. * For copy/paste operations the language is never changed, since * the language of a given text never changes if the text is * formatted differently, while other font attributes like size may * need to change if the text is copied from one environment to * another one. * If this method returns false no font attribute is reset. * The default implementation returns true if the resetFont layout * tag is set and otherwise the negation of inheritFont(), * since inherited inset font attributes do not need to be changed, * and non-inherited ones need to be set explicitly. */ virtual bool resetFontEdit() const; /// does the inset contain changes ? virtual bool isChanged() const { return false; } /// set the change for the entire inset virtual void setChange(Change const &) {} /// accept the changes within the inset virtual void acceptChanges() {} /// reject the changes within the inset virtual void rejectChanges() {} /// virtual bool needsCProtection(bool const, bool const) const { return false; } /// virtual ColorCode backgroundColor(PainterInfo const &) const; /// virtual ColorCode labelColor() const; /// Determine the action of backspace and delete: do we select instead of /// deleting if not already selected? virtual bool confirmDeletion() const { return false; } protected: /// Constructors Inset(Buffer * buf) : buffer_(buf) {} Inset(Inset const &) : buffer_(0) {} /// replicate ourselves friend class InsetList; friend class MathAtom; virtual Inset * clone() const = 0; /** The real dispatcher. * Gets normally called from Cursor::dispatch(). Cursor::dispatch() * assumes the common case of 'LFUN handled, need update'. * This has to be overridden by calling Cursor::undispatched() or * Cursor::noScreenUpdate() if appropriate. * If you need to call the dispatch method of some inset directly * you may have to explicitly request an update at that place. Don't * do it in doDispatch(), since that causes nested updates when * called from Cursor::dispatch(), and these can lead to crashes. * \sa getStatus */ virtual void doDispatch(Cursor & cur, FuncRequest & cmd); Buffer * buffer_; }; inline Inset::RowFlags operator|(Inset::RowFlags const d1, Inset::RowFlags const d2) { return static_cast(int(d1) | int(d2)); } inline Inset::RowFlags operator&(Inset::RowFlags const d1, Inset::RowFlags const d2) { return static_cast(int(d1) & int(d2)); } } // namespace lyx #endif