///////////////////////////////////////////////////////////////////////////// // Name: grid.h // Purpose: interface of wxGrid and related classes // Author: wxWidgets team // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// /// Magic constant which tells (to some functions) to automatically calculate /// the appropriate size #define wxGRID_AUTOSIZE (-1) /** @class wxGridCellRenderer This class is responsible for actually drawing the cell in the grid. You may pass it to the wxGridCellAttr (below) to change the format of one given cell or to wxGrid::SetDefaultRenderer() to change the view of all cells. This is an abstract class, and you will normally use one of the predefined derived classes or derive your own class from it. @library{wxcore} @category{grid} @see wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer */ class wxGridCellRenderer : public wxClientDataContainer, public wxRefCounter { public: wxGridCellRenderer(); /** This function must be implemented in derived classes to return a copy of itself. */ virtual wxGridCellRenderer* Clone() const = 0; /** Draw the given cell on the provided DC inside the given rectangle using the style specified by the attribute and the default or selected state corresponding to the isSelected value. This pure virtual function has a default implementation which will prepare the DC using the given attribute: it will draw the rectangle with the background colour from attr and set the text colour and font. */ virtual void Draw(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, const wxRect& rect, int row, int col, bool isSelected) = 0; /** Get the preferred size of the cell for its contents. This method must be overridden in the derived classes to return the minimal fitting size for displaying the content of the given grid cell. @see GetBestHeight(), GetBestWidth() */ virtual wxSize GetBestSize(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, int row, int col) = 0; /** Get the preferred height of the cell at the given width. Some renderers may not have a well-defined best size, but only be able to provide the best height at the given width, e.g. this is the case of the standard wxGridCellAutoWrapStringRenderer. In this case, they should override this method, in addition to GetBestSize(). @see GetBestWidth() @since 3.1.0 */ virtual int GetBestHeight(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, int row, int col, int width); /** Get the preferred width of the cell at the given height. See GetBestHeight(), this method is symmetric to it. @since 3.1.0 */ virtual int GetBestWidth(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, int row, int col, int height); /** Get the maximum possible size for a cell using this renderer, if possible. This function may be overridden in the derived class if it can return the maximum size needed for displaying the cells rendered it without iterating over all cells. The base class version simply returns ::wxDefaultSize, indicating that this is infeasible and that GetBestSize() should be called for each cell individually. Note that this method will only be used if wxGridTableBase::CanMeasureColUsingSameAttr() is overridden to return @true. @since 3.1.4 */ virtual wxSize GetMaxBestSize(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc); protected: /** The destructor is private because only DecRef() can delete us. */ virtual ~wxGridCellRenderer(); }; /** Smart pointer wrapping wxGridCellRenderer. wxGridCellRendererPtr takes ownership of wxGridCellRenderer passed to it on construction and calls DecRef() on it automatically when it is destroyed. It also provides transparent access to wxGridCellRenderer methods by allowing to use objects of this class as if they were wxGridCellRenderer pointers. @since 3.1.4 @category{grid} */ typedef wxObjectDataPtr wxGridCellRendererPtr; /** @class wxGridCellAutoWrapStringRenderer This class may be used to format string data in a cell. The too long lines are wrapped to be shown entirely at word boundaries. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer */ class wxGridCellAutoWrapStringRenderer : public wxGridCellStringRenderer { public: /** Default constructor. */ wxGridCellAutoWrapStringRenderer(); }; /** @class wxGridCellBoolRenderer This class may be used to format boolean data in a cell. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer */ class wxGridCellBoolRenderer : public wxGridCellRenderer { public: /** Default constructor. */ wxGridCellBoolRenderer(); }; /** @class wxGridCellDateRenderer This class may be used to show a date, without time, in a cell. See @ref wxGridCellDateTimeRenderer for a date/time version. wxDateTime::Format() is used internally to render the date representation. wxDateTime::ParseDate() is used to parse the string data entered in the cell. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer, wxGridCellDateTimeRenderer @since 3.1.3 */ class wxGridCellDateRenderer : public wxGridCellStringRenderer { public: /** Date renderer constructor. @param outformat strftime()-like format string used to render the output date. By default (or if provided format string is empty) localized date representation ("%x") is used. */ wxGridCellDateRenderer(const wxString& outformat = wxString()); /** Sets the strftime()-like format string which will be used to render the date. @param params strftime()-like format string used to render the date. */ virtual void SetParameters(const wxString& params); }; /** @class wxGridCellDateTimeRenderer This class may be used to format a date/time data in a cell. The class wxDateTime is used internally to display the local date/time or to parse the string date entered in the cell thanks to the defined format. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer, wxGridCellDateRenderer */ class wxGridCellDateTimeRenderer : public wxGridCellDateRenderer { public: /** Date/time renderer constructor. @param outformat strptime()-like format string used the parse the output date/time. @param informat strptime()-like format string used to parse the string entered in the cell. */ wxGridCellDateTimeRenderer(const wxString& outformat = wxDefaultDateTimeFormat, const wxString& informat = wxDefaultDateTimeFormat); /** Sets the strptime()-like format string which will be used to parse the date/time. @param params strptime()-like format string used to parse the date/time. */ virtual void SetParameters(const wxString& params); }; /** @class wxGridCellEnumRenderer This class may be used to render in a cell a number as a textual equivalent. The corresponding text strings are specified as comma-separated items in the string passed to this renderer ctor or SetParameters() method. For example, if this string is @c "John,Fred,Bob" the cell will be rendered as "John", "Fred" or "Bob" if its contents is 0, 1 or 2 respectively. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer */ class wxGridCellEnumRenderer : public wxGridCellStringRenderer { public: /** Enum renderer ctor. @param choices Comma separated string parameters "item1[,item2[...,itemN]]". */ wxGridCellEnumRenderer( const wxString& choices = wxEmptyString ); /** Sets the comma separated string content of the enum. @param params Comma separated string parameters "item1[,item2[...,itemN]]". */ virtual void SetParameters(const wxString& params); }; /** Specifier used to format the data to string for the numbers handled by wxGridCellFloatRenderer and wxGridCellFloatEditor. @since 2.9.3 */ enum wxGridCellFloatFormat { /// Decimal floating point (%f). wxGRID_FLOAT_FORMAT_FIXED = 0x0010, /// Scientific notation (mantissa/exponent) using e character (%e). wxGRID_FLOAT_FORMAT_SCIENTIFIC = 0x0020, /// Use the shorter of %e or %f (%g). wxGRID_FLOAT_FORMAT_COMPACT = 0x0040, /// To use in combination with one of the above formats for the upper /// case version (%F/%E/%G) wxGRID_FLOAT_FORMAT_UPPER = 0x0080, /// The format used by default (wxGRID_FLOAT_FORMAT_FIXED). wxGRID_FLOAT_FORMAT_DEFAULT = wxGRID_FLOAT_FORMAT_FIXED }; /** @class wxGridCellFloatRenderer This class may be used to format floating point data in a cell. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellNumberRenderer, wxGridCellStringRenderer */ class wxGridCellFloatRenderer : public wxGridCellStringRenderer { public: /** Float cell renderer ctor. @param width Minimum number of characters to be shown. @param precision Number of digits after the decimal dot. @param format The format used to display the string, must be a combination of ::wxGridCellFloatFormat enum elements. This parameter is only available since wxWidgets 2.9.3. */ wxGridCellFloatRenderer(int width = -1, int precision = -1, int format = wxGRID_FLOAT_FORMAT_DEFAULT); /** Returns the specifier used to format the data to string. The returned value is a combination of ::wxGridCellFloatFormat elements. @since 2.9.3 */ int GetFormat() const; /** Returns the precision. */ int GetPrecision() const; /** Returns the width. */ int GetWidth() const; /** Set the format to use for display the number. @param format Must be a combination of ::wxGridCellFloatFormat enum elements. @since 2.9.3 */ void SetFormat(int format); /** The parameters string format is "width[,precision[,format]]" where @c format should be chosen between f|e|g|E|G (f is used by default) */ virtual void SetParameters(const wxString& params); /** Sets the precision. */ void SetPrecision(int precision); /** Sets the width. */ void SetWidth(int width); }; /** @class wxGridCellNumberRenderer This class may be used to format integer data in a cell. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellStringRenderer */ class wxGridCellNumberRenderer : public wxGridCellStringRenderer { public: /** Default constructor. */ wxGridCellNumberRenderer(); }; /** @class wxGridCellStringRenderer This class may be used to format string data in a cell; it is the default for string cells. @library{wxcore} @category{grid} @see wxGridCellRenderer, wxGridCellAutoWrapStringRenderer, wxGridCellBoolRenderer, wxGridCellDateTimeRenderer, wxGridCellEnumRenderer, wxGridCellFloatRenderer, wxGridCellNumberRenderer */ class wxGridCellStringRenderer : public wxGridCellRenderer { public: /** Default constructor. */ wxGridCellStringRenderer(); }; /** Represents a source of cell activation, which may be either a user event (mouse or keyboard) or the program itself. An object of this class is passed to wxGridCellEditor::TryActivate() by the library and the code overriding this method may use its GetOrigin() method to determine how exactly the cell is being activated. @since 3.1.4 */ class wxGridActivationSource { public: /// Result of GetOrigin(). enum Origin { /// Activated due to an explicit wxGrid::EnableCellEditControl() call. Program, /// Activated due to the user pressing a key, see GetKeyEvent(). Key, /// Activated due to the user clicking on a cell, see GetMouseEvent(). Mouse }; /// Get the origin of the activation. Origin GetOrigin() const; /** Get the key event corresponding to the key press activating the cell. This method can be called for objects with Key origin only, use GetOrigin() to check for this first. */ const wxKeyEvent& GetKeyEvent() const; /** Get the mouse event corresponding to the click activating the cell. This method can be called for objects with Mouse origin only, use GetOrigin() to check for this first. */ const wxMouseEvent& GetMouseEvent() const; }; /** Represents the result of wxGridCellEditor::TryActivate(). Editors overriding wxGridCellEditor::TryActivate() must use one of DoNothing(), DoChange() or DoEdit() methods to return an object of this type corresponding to the desired action. @since 3.1.4 */ class wxGridActivationResult { public: /** Indicate that nothing should be done and the cell shouldn't be edited at all. Note that this is different from DoEdit() and may be useful when the value of the cell wouldn't change if it were activated anyhow, e.g. because the key or mouse event carried by wxGridActivationSource would leave the cell value unchanged. */ static wxGridActivationResult DoNothing(); /** Indicate that activating the cell is possible and would change its value to the given one. This is the method to call for activatable editors, using it will result in changing the value of the cell to @a newval without showing the editor control at all. Note that the change may still be vetoed by wxEVT_GRID_CELL_CHANGING handler. */ static wxGridActivationResult DoChange(const wxString& newval); /** Indicate that the editor control should be shown and the cell should be edited normally. This is the default return value of wxGridCellEditor::TryActivate(). */ static wxGridActivationResult DoEdit(); }; /** @class wxGridCellEditor This class is responsible for providing and manipulating the in-place edit controls for the grid. Instances of wxGridCellEditor (actually, instances of derived classes since it is an abstract class) can be associated with the cell attributes for individual cells, rows, columns, or even for the entire grid. Normally wxGridCellEditor shows some UI control allowing the user to edit the cell, but starting with wxWidgets 3.1.4 it's also possible to define "activatable" cell editors, that change the value of the cell directly when it's activated (typically by pressing Space key or clicking on it), see TryActivate() method. Note that when implementing an editor which is always activatable, i.e. never shows any in-place editor, it is more convenient to derive its class from wxGridCellActivatableEditor than from wxGridCellEditor itself. @library{wxcore} @category{grid} @see wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellEditor : public wxClientDataContainer, public wxRefCounter { public: /** Default constructor. */ wxGridCellEditor(); /** Fetch the value from the table and prepare the edit control to begin editing. This function should save the original value of the grid cell at the given @a row and @a col and show the control allowing the user to change it. @see EndEdit() */ virtual void BeginEdit(int row, int col, wxGrid* grid) = 0; /** Create a new object which is the copy of this one. */ virtual wxGridCellEditor* Clone() const = 0; /** Creates the actual edit control. */ virtual void Create(wxWindow* parent, wxWindowID id, wxEvtHandler* evtHandler) = 0; /** Final cleanup. */ virtual void Destroy(); /** End editing the cell. This function must check if the current value of the editing control is valid and different from the original value (available as @a oldval in its string form and possibly saved internally using its real type by BeginEdit()). If it isn't, it just returns @false, otherwise it must do the following: - Save the new value internally so that ApplyEdit() could apply it. - Fill @a newval (which is never @NULL) with the string representation of the new value. - Return @true Notice that it must @em not modify the grid as the change could still be vetoed. If the user-defined wxEVT_GRID_CELL_CHANGING event handler doesn't veto this change, ApplyEdit() will be called next. */ virtual bool EndEdit(int row, int col, const wxGrid* grid, const wxString& oldval, wxString* newval) = 0; /** Effectively save the changes in the grid. This function should save the value of the control in the grid. It is called only after EndEdit() returns @true. */ virtual void ApplyEdit(int row, int col, wxGrid* grid) = 0; /** Some types of controls on some platforms may need some help with the Return key. */ virtual void HandleReturn(wxKeyEvent& event); /** Returns @true if the edit control has been created. */ bool IsCreated(); /** Draws the part of the cell not occupied by the control: the base class version just fills it with background colour from the attribute. */ virtual void PaintBackground(wxDC& dc, const wxRect& rectCell, const wxGridCellAttr& attr); /** Reset the value in the control back to its starting value. */ virtual void Reset() = 0; /** Size and position the edit control. */ virtual void SetSize(const wxRect& rect); /** Show or hide the edit control, use the specified attributes to set colours/fonts for it. */ virtual void Show(bool show, wxGridCellAttr* attr = NULL); /** If the editor is enabled by clicking on the cell, this method will be called. */ virtual void StartingClick(); /** If the editor is enabled by pressing keys on the grid, this will be called to let the editor do something about that first key if desired. */ virtual void StartingKey(wxKeyEvent& event); /** Return @true to allow the given key to start editing: the base class version only checks that the event has no modifiers. If the key is F2 (special), editing will always start and this method will not be called at all (but StartingKey() will) */ virtual bool IsAcceptedKey(wxKeyEvent& event); /** Returns the value currently in the editor control. */ virtual wxString GetValue() const = 0; /** Get the edit window used by this editor. @since 3.1.3 */ wxWindow* GetWindow() const; /** Set the wxWindow that will be used by this cell editor for editing the value. @since 3.1.3 */ void SetWindow(wxWindow* window); /** Get the wxControl used by this editor. This function is preserved for compatibility, but GetWindow() should be preferred in the new code as the associated window doesn't need to be of a wxControl-derived class. Note that if SetWindow() had been called with an object not deriving from wxControl, this method will return @NULL. */ wxControl* GetControl(); /** Set the wxControl that will be used by this cell editor for editing the value. This function is preserved for compatibility, but SetWindow() should be preferred in the new code, see GetControl(). */ void SetControl(wxControl* control); /** Function allowing to create an "activatable" editor. As explained in this class description, activatable editors don't show any edit control but change the cell value directly, when it is activated (by any way described by wxGridActivationSource). To create such editor, this method must be overridden to return wxGridActivationResult::DoChange() passing it the new value of the cell. If the change is not vetoed by wxEVT_GRID_CELL_CHANGING handler, DoActivate() will be called to actually change the value, so it must be overridden as well if TryActivate() is overridden. By default, wxGridActivationResult::DoEdit() is returned, meaning that this is a normal editor, using an edit control for changing the cell value. @since 3.1.4 */ virtual wxGridActivationResult TryActivate(int row, int col, wxGrid* grid, const wxGridActivationSource& actSource); /** Function which must be overridden for "activatable" editors. If TryActivate() is overridden to return "change" action, this function will be called to actually apply this change. Note that it is not passed the value to apply, as it is assumed that the editor class stores this value as a member variable anyhow. @since 3.1.4 */ virtual void DoActivate(int row, int col, wxGrid* grid); protected: /** The destructor is private because only DecRef() can delete us. */ virtual ~wxGridCellEditor(); }; /** Base class for activatable editors. Inheriting from this class makes it simpler to implement editors that support only activation, but not in-place editing, as they only need to implement TryActivate(), DoActivate() and Clone() methods, but not all the other pure virtual methods of wxGridCellEditor. @since 3.1.4 */ class wxGridCellActivatableEditor : public wxGridCellEditor { public: /** Same method as in wxGridCellEditor, but pure virtual. Note that the implementation of this method must never return wxGridActivationResult::DoEdit() for the editors inheriting from this class, as it doesn't support normal editing. */ virtual wxGridActivationResult TryActivate(int row, int col, wxGrid* grid, const wxGridActivationSource& actSource) = 0; /// Same method as in wxGridCellEditor, but pure virtual. virtual void DoActivate(int row, int col, wxGrid* grid) = 0; }; /** Smart pointer wrapping wxGridCellEditor. wxGridCellEditorPtr takes ownership of wxGridCellEditor passed to it on construction and calls DecRef() on it automatically when it is destroyed. It also provides transparent access to wxGridCellEditor methods by allowing to use objects of this class as if they were wxGridCellEditor pointers. @since 3.1.4 @category{grid} */ typedef wxObjectDataPtr wxGridCellEditorPtr; /** @class wxGridCellAutoWrapStringEditor Grid cell editor for wrappable string/text data. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellAutoWrapStringEditor : public wxGridCellTextEditor { public: wxGridCellAutoWrapStringEditor(); }; /** @class wxGridCellBoolEditor Grid cell editor for boolean data. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellBoolEditor : public wxGridCellEditor { public: /** Default constructor. */ wxGridCellBoolEditor(); /** Returns @true if the given @a value is equal to the string representation of the truth value we currently use (see UseStringValues()). */ static bool IsTrueValue(const wxString& value); /** This method allows you to customize the values returned by GetValue() for the cell using this editor. By default, the default values of the arguments are used, i.e. @c "1" is returned if the cell is checked and an empty string otherwise. */ static void UseStringValues(const wxString& valueTrue = "1", const wxString& valueFalse = wxEmptyString); }; /** @class wxGridCellChoiceEditor Grid cell editor for string data providing the user a choice from a list of strings. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellChoiceEditor : public wxGridCellEditor { public: /** Choice cell renderer ctor. @param count Number of strings from which the user can choose. @param choices An array of strings from which the user can choose. @param allowOthers If allowOthers is @true, the user can type a string not in choices array. */ wxGridCellChoiceEditor(size_t count = 0, const wxString choices[] = NULL, bool allowOthers = false); /** Choice cell renderer ctor. @param choices An array of strings from which the user can choose. @param allowOthers If allowOthers is @true, the user can type a string not in choices array. */ wxGridCellChoiceEditor(const wxArrayString& choices, bool allowOthers = false); /** Parameters string format is "item1[,item2[...,itemN]]". This method can be called before the editor is used for the first time, or later, in which case it replaces the previously specified strings with the new ones. */ virtual void SetParameters(const wxString& params); }; /** @class wxGridCellEnumEditor Grid cell editor which displays an enum number as a textual equivalent (e.g. data in cell is 0,1,2 ... n the cell could be displayed as "John","Fred"..."Bob" in the combo choice box). @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellTextEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellDateEditor */ class wxGridCellEnumEditor : public wxGridCellChoiceEditor { public: /** Enum cell editor ctor. @param choices Comma separated choice parameters "item1[,item2[...,itemN]]". */ wxGridCellEnumEditor( const wxString& choices = wxEmptyString ); }; /** @class wxGridCellTextEditor Grid cell editor for string/text data. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellNumberEditor, wxGridCellDateEditor */ class wxGridCellTextEditor : public wxGridCellEditor { public: /** Text cell editor constructor. @param maxChars Maximum width of text (this parameter is supported starting since wxWidgets 2.9.5). */ explicit wxGridCellTextEditor(size_t maxChars = 0); /** The parameters string format is "n" where n is a number representing the maximum width. */ virtual void SetParameters(const wxString& params); /** Set validator to validate user input. @since 2.9.5 */ virtual void SetValidator(const wxValidator& validator); }; /** @class wxGridCellFloatEditor The editor for floating point numbers data. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellNumberEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellFloatEditor : public wxGridCellTextEditor { public: /** Float cell editor ctor. @param width Minimum number of characters to be shown. @param precision Number of digits after the decimal dot. @param format The format to use for displaying the number, a combination of ::wxGridCellFloatFormat enum elements. This parameter is only available since wxWidgets 2.9.3. */ wxGridCellFloatEditor(int width = -1, int precision = -1, int format = wxGRID_FLOAT_FORMAT_DEFAULT); /** The parameters string format is "width[,precision[,format]]" where @c format should be chosen between f|e|g|E|G (f is used by default) */ virtual void SetParameters(const wxString& params); }; /** @class wxGridCellNumberEditor Grid cell editor for numeric integer data. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellTextEditor, wxGridCellDateEditor */ class wxGridCellNumberEditor : public wxGridCellTextEditor { public: /** Allows you to specify the range for acceptable data. Values equal to -1 for both @a min and @a max indicate that no range checking should be done. */ wxGridCellNumberEditor(int min = -1, int max = -1); /** Parameters string format is "min,max". */ virtual void SetParameters(const wxString& params); protected: /** If the return value is @true, the editor uses a wxSpinCtrl to get user input, otherwise it uses a wxTextCtrl. */ bool HasRange() const; /** String representation of the value. */ wxString GetString() const; }; /** @class wxGridCellDateEditor Grid cell editor for dates. Uses @ref wxDatePickerCtrl as actual edit control. @library{wxcore} @category{grid} @see wxGridCellEditor, wxGridCellAutoWrapStringEditor, wxGridCellBoolEditor, wxGridCellChoiceEditor, wxGridCellEnumEditor, wxGridCellFloatEditor, wxGridCellTextEditor @since 3.1.3 */ class wxGridCellDateEditor : public wxGridCellEditor { public: /** Date editor constructor. */ wxGridCellDateEditor(); }; /** @class wxGridFitMode Allows to specify the behaviour when the cell contents doesn't fit into its allotted space. Objects of this class are used with wxGridCellAttr::SetFitMode() and wxGrid::SetDefaultCellFitMode() and wxGrid::SetCellFitMode() functions and allow to specify what should happen if the cell contents doesn't fit into the available space. The possibilities are: - Overflow into the cell to the right if it is empty, or possibly several cells, if the cell contents still doesn't fit after overflowing into the immediately neighbouring cell. - Clip the cell contents, discarding the part which doesn't fit. - Ellipsize the cell contents, i.e. replace the non-fitting part with ellipsis (@c ...), putting the ellipsis at the end by default, but possibly at the beginning or in the middle. The default behaviour is to overflow, use wxGrid::SetDefaultCellFitMode() to change this, for example: @code grid->SetDefaultCellFitMode(wxGridFitMode::Clip()); @endcode Objects of this class are created using static functions instead of constructors for better readability and can't be changed after creating them except by using the assignment operator. @library{wxcore} @category{grid} @since 3.1.4 */ class wxGridFitMode { public: /** Default constructor creates an object not specifying any behaviour. This constructor is not very useful, use static methods Clip() and Overflow() below to create objects of this class instead. */ wxGridFitMode(); /** Pseudo-constructor for object specifying clipping behaviour. */ static wxGridFitMode Clip(); /** Pseudo-constructor for object specifying overflow behaviour. */ static wxGridFitMode Overflow(); /** Pseudo-constructor for object specifying ellipsize behaviour. */ static wxGridFitMode Ellipsize(wxEllipsizeMode ellipsize = wxELLIPSIZE_END); /** Return true if the object specifies some particular behaviour. This method returns @false for default-constructed objects of this type only. */ bool IsSpecified() const; /** Return true if the object specifies clipping behaviour. This method returns @true only for the objects returned by Clip(). */ bool IsClip() const; /** Return true if the object specifies overflow behaviour. This method returns @true only for the objects returned by Overflow(). */ bool IsOverflow() const; /** Return ellipsize mode, possibly @c wxELLIPSIZE_NONE. For the objects constructed using Ellipsize(), the same ellipsization mode as was passed to it is returned. For all the other objects, ::wxELLIPSIZE_NONE is. */ wxEllipsizeMode GetEllipsizeMode() const; }; /** @class wxGridCellAttr This class can be used to alter the cells' appearance in the grid by changing their attributes from the defaults. An object of this class may be returned by wxGridTableBase::GetAttr(). Note that objects of this class are reference-counted and it's recommended to use wxGridCellAttrPtr smart pointer class when working with them to avoid memory leaks. @library{wxcore} @category{grid} */ class wxGridCellAttr : public wxClientDataContainer, public wxRefCounter { public: /** Kind of the attribute to retrieve. @see wxGridCellAttrProvider::GetAttr(), wxGridTableBase::GetAttr() */ enum wxAttrKind { /// Return the combined effective attribute for the cell. Any, /// Return the attribute explicitly set for this cell. Cell, /// Return the attribute set for this cells row. Row, /// Return the attribute set for this cells column. Col, Default, Merged }; /** Default constructor. */ explicit wxGridCellAttr(wxGridCellAttr* attrDefault = NULL); /** Constructor specifying some of the often used attributes. */ wxGridCellAttr(const wxColour& colText, const wxColour& colBack, const wxFont& font, int hAlign, int vAlign); /** Creates a new copy of this object. */ wxGridCellAttr* Clone() const; /** This class is reference counted: it is created with ref count of 1, so calling DecRef() once will delete it. Calling IncRef() allows locking it until the matching DecRef() is called. */ void DecRef(); /** Get the alignment to use for the cell with the given attribute. If this attribute doesn't specify any alignment, the default attribute alignment is used (which can be changed using wxGrid::SetDefaultCellAlignment() but is left and top by default). Notice that @a hAlign and @a vAlign values are always overwritten by this function, use GetNonDefaultAlignment() if this is not desirable. @param hAlign Horizontal alignment is returned here if this argument is non-@NULL. It is one of wxALIGN_LEFT, wxALIGN_CENTRE or wxALIGN_RIGHT. @param vAlign Vertical alignment is returned here if this argument is non-@NULL. It is one of wxALIGN_TOP, wxALIGN_CENTRE or wxALIGN_BOTTOM. */ void GetAlignment(int* hAlign, int* vAlign) const; /** Returns the background colour. */ const wxColour& GetBackgroundColour() const; /** Returns the cell editor. The caller is responsible for calling DecRef() on the returned pointer, use GetEditorPtr() to do it automatically. */ wxGridCellEditor* GetEditor(const wxGrid* grid, int row, int col) const; /** Returns the cell editor. This method is identical to GetEditor(), but returns a smart pointer, which frees the caller from the need to call DecRef() manually. @since 3.1.4 */ wxGridCellEditorPtr GetEditorPtr(const wxGrid* grid, int row, int col) const; /** Returns the font. */ const wxFont& GetFont() const; /** Get the alignment defined by this attribute. Unlike GetAlignment() this function only modifies @a hAlign and @a vAlign if this attribute does define a non-default alignment. This means that they must be initialized before calling this function and that their values will be preserved unchanged if they are different from wxALIGN_INVALID. For example, the following fragment can be used to use the cell alignment if one is defined but right-align its contents by default (instead of left-aligning it by default) while still using the default vertical alignment: @code int hAlign = wxALIGN_RIGHT, vAlign = wxALIGN_INVALID; attr.GetNonDefaultAlignment(&hAlign, &vAlign); @endcode @since 2.9.1 */ void GetNonDefaultAlignment(int *hAlign, int *vAlign) const; /** Returns the cell renderer. The caller is responsible for calling DecRef() on the returned pointer, use GetRendererPtr() to do it automatically. */ wxGridCellRenderer* GetRenderer(const wxGrid* grid, int row, int col) const; /** Returns the cell editor. This method is identical to GetRenderer(), but returns a smart pointer, which frees the caller from the need to call DecRef() manually. @since 3.1.4 */ wxGridCellRendererPtr GetRendererPtr(const wxGrid* grid, int row, int col) const; /** Returns the text colour. */ const wxColour& GetTextColour() const; /** Returns @true if this attribute has a valid alignment set. */ bool HasAlignment() const; /** Returns @true if this attribute has a valid background colour set. */ bool HasBackgroundColour() const; /** Returns @true if this attribute has a valid cell editor set. */ bool HasEditor() const; /** Returns @true if this attribute has a valid font set. */ bool HasFont() const; /** Returns @true if this attribute has a valid cell renderer set. */ bool HasRenderer() const; /** Returns @true if this attribute has a valid text colour set. */ bool HasTextColour() const; /** This class is reference counted: it is created with ref count of 1, so calling DecRef() once will delete it. Calling IncRef() allows locking it until the matching DecRef() is called. */ void IncRef(); /** Returns @true if this cell is set as read-only. */ bool IsReadOnly() const; /** Sets the alignment. @a hAlign can be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT and @a vAlign can be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void SetAlignment(int hAlign, int vAlign); /** Sets the background colour. */ void SetBackgroundColour(const wxColour& colBack); /** @todo Needs documentation. */ void SetDefAttr(wxGridCellAttr* defAttr); /** Sets the editor to be used with the cells with this attribute. */ void SetEditor(wxGridCellEditor* editor); /** Sets the font. */ void SetFont(const wxFont& font); /** Sets the cell as read-only. */ void SetReadOnly(bool isReadOnly = true); /** Sets the renderer to be used for cells with this attribute. Takes ownership of the pointer. */ void SetRenderer(wxGridCellRenderer* renderer); /** Sets the text colour. */ void SetTextColour(const wxColour& colText); void MergeWith(wxGridCellAttr *mergefrom); void SetSize(int num_rows, int num_cols); /** Specifies the behaviour of the cell contents if it doesn't fit into the available space. @see wxGridFitMode @since 3.1.4 */ void SetFitMode(wxGridFitMode fitMode); /** Specifies if cells using this attribute should overflow or clip their contents. This is the same as calling SetFitMode() with either wxGridFitMode::Overflow() or wxGridFitMode::Clip() argument depending on whether @a allow is @true or @false. Prefer using SetFitMode() directly instead in the new code. */ void SetOverflow(bool allow = true); void SetKind(wxAttrKind kind); bool HasReadWriteMode() const; bool HasOverflowMode() const; bool HasSize() const; void GetSize(int *num_rows, int *num_cols) const; /** Returns the fitting mode for the cells using this attribute. The returned wxGridFitMode is always specified, i.e. wxGridFitMode::IsSpecified() always returns @true. The default value, if SetFitMode() hadn't been called before, is "overflow". @since 3.1.4 */ wxGridFitMode GetFitMode() const; /** Returns true if the cells using this attribute overflow into the neighbouring cells. Prefer using GetFitMode() in the new code. */ bool GetOverflow() const; /** Returns @true if the cell will draw an overflowed text into the neighbouring cells. Note that only left aligned cells currently can overflow. It means that GetFitMode().IsOverflow() should returns true and GetAlignment should returns wxALIGN_LEFT for hAlign parameter. @since 3.1.4 */ bool CanOverflow() const; wxAttrKind GetKind(); protected: /** The destructor is private because only DecRef() can delete us. */ virtual ~wxGridCellAttr(); }; /** Smart pointer wrapping wxGridCellAttr. wxGridCellAttrPtr takes ownership of wxGridCellAttr passed to it on construction and calls DecRef() on it automatically when it is destroyed. It also provides transparent access to wxGridCellAttr methods by allowing to use objects of this class as if they were wxGridCellAttr pointers. @since 3.1.4 @category{grid} */ typedef wxObjectDataPtr wxGridCellAttrPtr; /** Base class for header cells renderers. A cell renderer can be used to draw the text of a cell's label, and/or the border around it. @since 2.9.1 */ class wxGridHeaderLabelsRenderer { public: /** Called by the grid to draw the border around the cell header. This method is responsible for drawing the border inside the given @a rect and adjusting the rectangle size to correspond to the area inside the border, i.e. usually call wxRect::Deflate() to account for the border width. @param grid The grid whose header cell window is being drawn. @param dc The device context to use for drawing. @param rect Input/output parameter which contains the border rectangle on input and should be updated to contain the area inside the border on function return. */ virtual void DrawBorder(const wxGrid& grid, wxDC& dc, wxRect& rect) const = 0; /** Called by the grid to draw the specified label. Notice that the DrawBorder() method is called before this one. The default implementation uses wxGrid::GetLabelTextColour() and wxGrid::GetLabelFont() to draw the label. */ virtual void DrawLabel(const wxGrid& grid, wxDC& dc, const wxString& value, const wxRect& rect, int horizAlign, int vertAlign, int textOrientation) const; }; /** Base class for row headers renderer. This is the same as wxGridHeaderLabelsRenderer currently but we still use a separate class for it to distinguish it from wxGridColumnHeaderRenderer and wxGridCornerHeaderRenderer. @see wxGridRowHeaderRendererDefault @see wxGridCellAttrProvider::GetRowHeaderRenderer() @since 2.9.1 */ class wxGridRowHeaderRenderer : public wxGridHeaderLabelsRenderer { }; /** Base class for column headers renderer. This is the same as wxGridHeaderLabelsRenderer currently but we still use a separate class for it to distinguish it from wxGridRowHeaderRenderer and wxGridCornerHeaderRenderer. @see wxGridColumnHeaderRendererDefault @see wxGridCellAttrProvider::GetColumnHeaderRenderer() @since 2.9.1 */ class wxGridColumnHeaderRenderer : public wxGridHeaderLabelsRenderer { }; /** Base class for corner header renderer. This is the same as wxGridHeaderLabelsRenderer currently but we still use a separate class for it to distinguish it from wxGridRowHeaderRenderer and wxGridColumnHeaderRenderer. @see wxGridCornerHeaderRendererDefault @see wxGridCellAttrProvider::GetCornerRenderer() @since 2.9.1 */ class wxGridCornerHeaderRenderer : public wxGridHeaderLabelsRenderer { }; /** Default row header renderer. You may derive from this class if you need to only override one of its methods (i.e. either DrawLabel() or DrawBorder()) but continue to use the default implementation for the other one. @see wxGridColumnHeaderRendererDefault, wxGridCornerHeaderRendererDefault @since 2.9.1 */ class wxGridRowHeaderRendererDefault : public wxGridRowHeaderRenderer { public: /// Implement border drawing for the row labels. virtual void DrawBorder(const wxGrid& grid, wxDC& dc, wxRect& rect) const; }; /** Default column header renderer. @see wxGridRowHeaderRendererDefault, wxGridCornerHeaderRendererDefault @since 2.9.1 */ class wxGridColumnHeaderRendererDefault : public wxGridColumnHeaderRenderer { public: /// Implement border drawing for the column labels. virtual void DrawBorder(const wxGrid& grid, wxDC& dc, wxRect& rect) const; }; /** Default corner window renderer. @see wxGridColumnHeaderRendererDefault, wxGridRowHeaderRendererDefault @since 2.9.1 */ class wxGridCornerHeaderRendererDefault : public wxGridCornerHeaderRenderer { public: /// Implement border drawing for the corner window. virtual void DrawBorder(const wxGrid& grid, wxDC& dc, wxRect& rect) const; }; /** Class providing attributes to be used for the grid cells. This class both defines an interface which grid cell attributes providers should implement -- and which can be implemented differently in derived classes -- and a default implementation of this interface which is often good enough to be used without modification, especially with not very large grids for which the efficiency of attributes storage hardly matters (see the discussion below). An object of this class can be associated with a wxGrid using wxGridTableBase::SetAttrProvider() but it's not necessary to call it if you intend to use the default provider as it is used by wxGridTableBase by default anyhow. Notice that while attributes provided by this class can be set for individual cells using SetAttr() or the entire rows or columns using SetRowAttr() and SetColAttr() they are always retrieved using GetAttr() function. The default implementation of this class stores the attributes passed to its SetAttr(), SetRowAttr() and SetColAttr() in a straightforward way. A derived class may use its knowledge about how the attributes are used in your program to implement it much more efficiently: for example, using a special background colour for all even-numbered rows can be implemented by simply returning the same attribute from GetAttr() if the row number is even instead of having to store N/2 row attributes where N is the total number of rows in the grid. Notice that objects of this class can't be copied. */ class wxGridCellAttrProvider : public wxClientDataContainer { public: /// Trivial default constructor. wxGridCellAttrProvider(); /// Destructor releases any attributes held by this class. virtual ~wxGridCellAttrProvider(); /** Get the attribute to use for the specified cell. If wxGridCellAttr::Any is used as @a kind value, this function combines the attributes set for this cell using SetAttr() and those for its row or column (set with SetRowAttr() or SetColAttr() respectively), with the cell attribute having the highest precedence. Notice that the caller must call DecRef() on the returned pointer if it is non-@NULL. GetAttrPtr() method can be used to do this automatically. @param row The row of the cell. @param col The column of the cell. @param kind The kind of the attribute to return. @return The attribute to use which should be DecRef()'d by caller or @NULL if no attributes are defined for this cell. */ virtual wxGridCellAttr *GetAttr(int row, int col, wxGridCellAttr::wxAttrKind kind) const; /** Get the attribute to use for the specified cell. This method is identical to GetAttr(), but returns a smart pointer, which frees the caller from the need to call DecRef() manually. @since 3.1.4 */ wxGridCellAttrPtr GetAttrPtr(int row, int col, wxGridCellAttr::wxAttrKind kind) const; /*! @name Setting attributes. All these functions take ownership of the attribute passed to them, i.e. will call DecRef() on it themselves later and so it should not be destroyed by the caller. The attribute can be @NULL to reset a previously set value. */ //@{ /// Set attribute for the specified cell. virtual void SetAttr(wxGridCellAttr *attr, int row, int col); /// Set attribute for the specified row. virtual void SetRowAttr(wxGridCellAttr *attr, int row); /// Set attribute for the specified column. virtual void SetColAttr(wxGridCellAttr *attr, int col); //@} /** @name Getting header renderers. These functions return the renderers for the given row or column header label and the corner window. Unlike cell attributes, these objects are not reference counted and are never @NULL so they are returned by reference and not pointer and DecRef() shouldn't (and can't) be called for them. All these functions were added in wxWidgets 2.9.1. */ //@{ /** Return the renderer used for drawing column headers. By default wxGridColumnHeaderRendererDefault is returned. @see wxGrid::SetUseNativeColLabels(), wxGrid::UseNativeColHeader() @since 2.9.1 */ virtual const wxGridColumnHeaderRenderer& GetColumnHeaderRenderer(int col); /** Return the renderer used for drawing row headers. By default wxGridRowHeaderRendererDefault is returned. @since 2.9.1 */ virtual const wxGridRowHeaderRenderer& GetRowHeaderRenderer(int row); /** Return the renderer used for drawing the corner window. By default wxGridCornerHeaderRendererDefault is returned. @since 2.9.1 */ virtual const wxGridCornerHeaderRenderer& GetCornerRenderer(); //@} }; /** Message class used by the grid table to send requests and notifications to the grid view. A message object of this class must be sent to the grid using wxGrid::ProcessTableMessage() every time the table changes, e.g. rows are added/deleted. The messages are just notifications and don't result in any actual changes but just allow the view to react to changes to the model. */ class wxGridTableMessage { public: /** Default constructor initializes the object to invalid state. */ wxGridTableMessage(); /** Constructor really initialize the message. @param table Pointer to the grid table @param id One of wxGridTableRequest enum elements. @param comInt1 Position after which the rows are inserted/deleted @param comInt2 Number of rows to be inserted/deleted */ wxGridTableMessage(wxGridTableBase *table, int id, int comInt1 = -1, int comInt2 = -1); /** Sets the table object */ void SetTableObject( wxGridTableBase *table ); /** Gets the table object */ wxGridTableBase * GetTableObject() const; /** Sets an id */ void SetId( int id ); /** Gets an id */ int GetId(); /** Set the position after which the insertion/deletion occur */ void SetCommandInt( int comInt1 ); /** Get the position after which the insertion/deletion occur */ int GetCommandInt(); /** Set the number of rows to be inserted/deleted */ void SetCommandInt2( int comInt2 ); /** Get the number of rows to be inserted/deleted */ int GetCommandInt2(); }; /** Simplest type of data table for a grid for small tables of strings that are stored in memory. The number of rows and columns in the table can be specified initially but may also be changed later dynamically. */ class wxGridStringTable { public: /** Default constructor creates an empty table. */ wxGridStringTable(); /** Constructor taking number of rows and columns. */ wxGridStringTable( int numRows, int numCols ); virtual int GetNumberRows(); virtual int GetNumberCols(); virtual wxString GetValue( int row, int col ); virtual void SetValue( int row, int col, const wxString& s ); void Clear(); bool InsertRows( size_t pos = 0, size_t numRows = 1 ); bool AppendRows( size_t numRows = 1 ); bool DeleteRows( size_t pos = 0, size_t numRows = 1 ); bool InsertCols( size_t pos = 0, size_t numCols = 1 ); bool AppendCols( size_t numCols = 1 ); bool DeleteCols( size_t pos = 0, size_t numCols = 1 ); void SetRowLabelValue( int row, const wxString& ); void SetColLabelValue( int col, const wxString& ); void SetCornerLabelValue( const wxString& ); wxString GetRowLabelValue( int row ); wxString GetColLabelValue( int col ); wxString GetCornerLabelValue() const; }; /** Represents coordinates of a grid cell. An object of this class is simply a (row, column) pair. */ class wxGridCellCoords { public: /** Default constructor initializes the object to invalid state. Initially the row and column are both invalid (-1) and so operator!() for an uninitialized wxGridCellCoords returns false. */ wxGridCellCoords(); /** Constructor taking a row and a column. */ wxGridCellCoords(int row, int col); /** Return the row of the coordinate. */ int GetRow() const; /** Set the row of the coordinate. */ void SetRow(int n); /** Return the column of the coordinate. */ int GetCol() const; /** Set the column of the coordinate. */ void SetCol(int n); /** Set the row and column of the coordinate. */ void Set(int row, int col); /** Assignment operator for coordinate types. */ wxGridCellCoords& operator=(const wxGridCellCoords& other); /** Equality operator. */ bool operator==(const wxGridCellCoords& other) const; /** Inequality operator. */ bool operator!=(const wxGridCellCoords& other) const; /** Checks whether the coordinates are invalid. Returns false only if both row and column are -1. Notice that if either row or column (but not both) are -1, this method returns true even if the object is invalid. This is done because objects in such state should actually never exist, i.e. either both coordinates should be -1 or none of them should be -1. */ bool operator!() const; }; /** Represents coordinates of a block of cells in the grid. An object of this class contains coordinates of the left top and the bottom right corners of a block. @since 3.1.4 */ class wxGridBlockCoords { public: /** Default constructor initializes the object to invalid state. Initially the coordinates are invalid (-1) and so operator!() for an uninitialized wxGridBlockCoords returns @true. */ wxGridBlockCoords(); /** Constructor taking a coordinates of the left top and the bottom right corners. */ wxGridBlockCoords(int topRow, int leftCol, int bottomRow, int rightCol); /** Return the row of the left top corner. */ int GetTopRow() const; /** Set the row of the left top corner. */ void SetTopRow(int row); /** Return the column of the left top corner. */ int GetLeftCol() const; /** Set the column of the left top corner. */ void SetLeftCol(int col); /** Return the row of the bottom right corner. */ int GetBottomRow() const; /** Set the row of the bottom right corner. */ void SetBottomRow(int row); /** Return the column of the bottom right corner. */ int GetRightCol() const; /** Set the column of the bottom right corner. */ void SetRightCol(int col); /** Return the coordinates of the top left corner. */ wxGridCellCoords GetTopLeft() const { return wxGridCellCoords(m_topRow, m_leftCol); } /** Return the coordinates of the bottom right corner. */ wxGridCellCoords GetBottomRight() const { return wxGridCellCoords(m_bottomRow, m_rightCol); } /** Return the canonicalized block where top left coordinates is less then bottom right coordinates. */ wxGridBlockCoords Canonicalize() const; /** Whether the blocks intersect. @return @true, if the block intersects with the other, @false, otherwise. */ bool Intersects(const wxGridBlockCoords& other) const { return m_topRow <= other.m_bottomRow && m_bottomRow >= other.m_topRow && m_leftCol <= other.m_rightCol && m_rightCol >= other.m_leftCol; } /** Check whether this block contains the given cell. @return @true, if the block contains the cell, @false otherwise. */ bool Contains(const wxGridCellCoords& cell) const; /** Check whether this block contains another one. @return @true if @a other is entirely contained within this block. */ bool Contains(const wxGridBlockCoords& other) const; /** Calculates the result blocks by subtracting the other block from this block. @param other The block to subtract from this block. @param splitOrientation The block splitting orientation (either @c wxHORIZONTAL or @c wxVERTICAL). @return Up to 4 blocks. If block doesn't exist in the result, it has value of @c wxGridNoBlockCoords. */ wxGridBlockDiffResult Difference(const wxGridBlockCoords& other, int splitOrientation) const; /** Calculates the symmetric difference of the blocks. @param other The block to subtract from this block. @return Up to 4 blocks. If block doesn't exist in the result, it has value of @c wxGridNoBlockCoords. */ wxGridBlockDiffResult SymDifference(const wxGridBlockCoords& other) const; /** Equality operator. */ bool operator==(const wxGridBlockCoords& other) const; /** Inequality operator. */ bool operator!=(const wxGridBlockCoords& other) const; /** Checks whether the cells block is invalid. Returns @true only if all components are -1. Notice that if one of the components (but not all) is -1, this method returns @false even if the object is invalid. This is done because objects in such state should actually never exist, i.e. either all components should be -1 or none of them should be -1. */ bool operator!() const; private: int m_topRow; int m_leftCol; int m_bottomRow; int m_rightCol; }; /** @class wxGridBlockDiffResult The helper struct uses as a result type for difference functions of @c wxGridBlockCoords class. Parts can be uninitialized (equals to @c wxGridNoBlockCoords), that means that the corresponding part doesn't exists in the result. @since 3.1.4 */ struct wxGridBlockDiffResult { wxGridBlockCoords m_parts[4]; }; /** Represents a collection of grid blocks that can be iterated over. This class provides read-only access to the blocks making up the grid selection in the most general case. Note that objects of this class can only be returned by wxGrid, but not constructed in the application code. The preferable way to iterate over it is using C++11 range-for loop: @code for ( const auto& block: grid->GetSelectedBlocks() ) { ... do something with block ... } @endcode When not using C++11, iteration has to be done manually: @code wxGridBlocks range = grid->GetSelectedBlocks(); for ( wxGridBlocks::iterator it = range.begin(); it != range.end(); ++it ) { ... do something with *it ... } @endcode @since 3.1.4 */ class wxGridBlocks { public: /** Read-only forward iterator type. This is an opaque type, which satisfies the forward iterator requirements, i.e. provides all the expected operations, such as comparison, dereference and pre- and post-increment. */ class iterator { iterator(); const wxGridBlockCoords& operator*() const; const wxGridBlockCoords* operator->() const; iterator& operator++(); iterator operator++(int); bool operator==(const iterator& it) const; bool operator!=(const iterator& it) const; }; /// Return iterator corresponding to the beginning of the range. iterator begin() const; /// Return iterator corresponding to the end of the range. iterator end() const; }; /** @class wxGridTableBase The almost abstract base class for grid tables. A grid table is responsible for storing the grid data and, indirectly, grid cell attributes. The data can be stored in the way most convenient for the application but has to be provided in string form to wxGrid. It is also possible to provide cells values in other formats if appropriate, e.g. as numbers. This base class is not quite abstract as it implements a trivial strategy for storing the attributes by forwarding it to wxGridCellAttrProvider and also provides stubs for some other functions. However it does have a number of pure virtual methods which must be implemented in the derived classes. @see wxGridStringTable @library{wxcore} @category{grid} */ class wxGridTableBase : public wxObject { public: /** Default constructor. */ wxGridTableBase(); /** Destructor frees the attribute provider if it was created. */ virtual ~wxGridTableBase(); /** Must be overridden to return the number of rows in the table. For backwards compatibility reasons, this method is not const. Use GetRowsCount() instead of it in const methods of derived table classes. */ virtual int GetNumberRows() = 0; /** Must be overridden to return the number of columns in the table. For backwards compatibility reasons, this method is not const. Use GetColsCount() instead of it in const methods of derived table classes, */ virtual int GetNumberCols() = 0; /** Return the number of rows in the table. This method is not virtual and is only provided as a convenience for the derived classes which can't call GetNumberRows() without a @c const_cast from their const methods. */ int GetRowsCount() const; /** Return the number of columns in the table. This method is not virtual and is only provided as a convenience for the derived classes which can't call GetNumberCols() without a @c const_cast from their const methods. */ int GetColsCount() const; /** @name Table Cell Accessors */ //@{ /** May be overridden to implement testing for empty cells. This method is used by the grid to test if the given cell is not used and so whether a neighbouring cell may overflow into it. By default it only returns true if the value of the given cell, as returned by GetValue(), is empty. */ virtual bool IsEmptyCell(int row, int col); /** Same as IsEmptyCell() but taking wxGridCellCoords. Notice that this method is not virtual, only IsEmptyCell() should be overridden. */ bool IsEmpty(const wxGridCellCoords& coords); /** Must be overridden to implement accessing the table values as text. */ virtual wxString GetValue(int row, int col) = 0; /** Must be overridden to implement setting the table values as text. */ virtual void SetValue(int row, int col, const wxString& value) = 0; /** Returns the type of the value in the given cell. By default all cells are strings and this method returns @c wxGRID_VALUE_STRING. */ virtual wxString GetTypeName(int row, int col); /** Returns true if the value of the given cell can be accessed as if it were of the specified type. By default the cells can only be accessed as strings. Note that a cell could be accessible in different ways, e.g. a numeric cell may return @true for @c wxGRID_VALUE_NUMBER but also for @c wxGRID_VALUE_STRING indicating that the value can be coerced to a string form. */ virtual bool CanGetValueAs(int row, int col, const wxString& typeName); /** Returns true if the value of the given cell can be set as if it were of the specified type. @see CanGetValueAs() */ virtual bool CanSetValueAs(int row, int col, const wxString& typeName); /** Returns the value of the given cell as a long. This should only be called if CanGetValueAs() returns @true when called with @c wxGRID_VALUE_NUMBER argument. Default implementation always return 0. */ virtual long GetValueAsLong(int row, int col); /** Returns the value of the given cell as a double. This should only be called if CanGetValueAs() returns @true when called with @c wxGRID_VALUE_FLOAT argument. Default implementation always return 0.0. */ virtual double GetValueAsDouble(int row, int col); /** Returns the value of the given cell as a boolean. This should only be called if CanGetValueAs() returns @true when called with @c wxGRID_VALUE_BOOL argument. Default implementation always return false. */ virtual bool GetValueAsBool(int row, int col); /** Returns the value of the given cell as a user-defined type. This should only be called if CanGetValueAs() returns @true when called with @a typeName. Default implementation always return @NULL. Note that if the pointer is not null, it will be deleted by the caller, so it must be allocated on the heap by any class overriding this method. In practice, it means that the value stored internally must be cloned on every call. */ virtual void *GetValueAsCustom(int row, int col, const wxString& typeName); /** Sets the value of the given cell as a long. This should only be called if CanSetValueAs() returns @true when called with @c wxGRID_VALUE_NUMBER argument. Default implementation doesn't do anything. */ virtual void SetValueAsLong(int row, int col, long value); /** Sets the value of the given cell as a double. This should only be called if CanSetValueAs() returns @true when called with @c wxGRID_VALUE_FLOAT argument. Default implementation doesn't do anything. */ virtual void SetValueAsDouble(int row, int col, double value); /** Sets the value of the given cell as a boolean. This should only be called if CanSetValueAs() returns @true when called with @c wxGRID_VALUE_BOOL argument. Default implementation doesn't do anything. */ virtual void SetValueAsBool( int row, int col, bool value ); /** Sets the value of the given cell as a user-defined type. This should only be called if CanSetValueAs() returns @true when called with @a typeName. Default implementation doesn't do anything. */ virtual void SetValueAsCustom(int row, int col, const wxString& typeName, void *value); //@} /** Called by the grid when the table is associated with it. The default implementation stores the pointer and returns it from its GetView() and so only makes sense if the table cannot be associated with more than one grid at a time. */ virtual void SetView(wxGrid *grid); /** Returns the last grid passed to SetView(). */ virtual wxGrid *GetView() const; /*! @name Table Structure Modifiers Note that none of these functions are pure virtual as they don't have to be implemented if the table structure is never modified after creation, i.e. neither rows nor columns are ever added or deleted. Also note that you do need to implement them if they are called, i.e. if your code either calls them directly or uses the matching wxGrid methods, as by default they simply do nothing which is definitely inappropriate. */ //@{ /** Clear the table contents. This method is used by wxGrid::ClearGrid(). */ virtual void Clear(); /** Insert additional rows into the table. @param pos The position of the first new row. @param numRows The number of rows to insert. */ virtual bool InsertRows(size_t pos = 0, size_t numRows = 1); /** Append additional rows at the end of the table. This method is provided in addition to InsertRows() as some data models may only support appending rows to them but not inserting them at arbitrary locations. In such case you may implement this method only and leave InsertRows() unimplemented. @param numRows The number of rows to add. */ virtual bool AppendRows(size_t numRows = 1); /** Delete rows from the table. Notice that currently deleting a row intersecting a multi-cell (see SetCellSize()) is not supported and will result in a crash. @param pos The first row to delete. @param numRows The number of rows to delete. */ virtual bool DeleteRows(size_t pos = 0, size_t numRows = 1); /** Exactly the same as InsertRows() but for columns. */ virtual bool InsertCols(size_t pos = 0, size_t numCols = 1); /** Exactly the same as AppendRows() but for columns. */ virtual bool AppendCols(size_t numCols = 1); /** Exactly the same as DeleteRows() but for columns. */ virtual bool DeleteCols(size_t pos = 0, size_t numCols = 1); //@} /*! @name Table Row, Column and Corner Labels By default the numbers are used for labelling rows and Latin letters for labelling columns. If the table has more than 26 columns, the pairs of letters are used starting from the 27-th one and so on, i.e. the sequence of labels is A, B, ..., Z, AA, AB, ..., AZ, BA, ..., ..., ZZ, AAA, ... A cell in the top-left corner of a grid can also have a label. It is empty by default. Use wxGrid::SetCornerLabelValue() to set it and wxGrid::GetCornerLabelValue() to get its' current value. @see wxGridTableBase::GetCornerLabelValue, wxGridTableBase::SetCornerLabelValue */ //@{ /** Return the label of the specified row. */ virtual wxString GetRowLabelValue(int row); /** Return the label of the specified column. */ virtual wxString GetColLabelValue(int col); /** Return the label of the grid's corner. @since 3.1.2 */ virtual wxString GetCornerLabelValue() const; /** Set the given label for the specified row. The default version does nothing, i.e. the label is not stored. You must override this method in your derived class if you wish wxGrid::SetRowLabelValue() to work. */ virtual void SetRowLabelValue(int row, const wxString& label); /** Exactly the same as SetRowLabelValue() but for columns. */ virtual void SetColLabelValue(int col, const wxString& label); /** Set the given label for the grid's corner. The default version does nothing, i.e. the label is not stored. You must override this method in your derived class if you wish wxGrid::GetCornerLabelValue() to work. @since 3.1.2 */ virtual void SetCornerLabelValue( const wxString& ); //@} /** @name Attributes Management By default the attributes management is delegated to wxGridCellAttrProvider class. You may override the methods in this section to handle the attributes directly if, for example, they can be computed from the cell values. */ //@{ /** Associate this attributes provider with the table. The table takes ownership of @a attrProvider pointer and will delete it when it doesn't need it any more. The pointer can be @NULL, however this won't disable attributes management in the table but will just result in a default attributes being recreated the next time any of the other functions in this section is called. To completely disable the attributes support, should this be needed, you need to override CanHaveAttributes() to return @false. */ void SetAttrProvider(wxGridCellAttrProvider *attrProvider); /** Returns the attribute provider currently being used. This function may return @NULL if the attribute provider hasn't been neither associated with this table by SetAttrProvider() nor created on demand by any other methods. */ wxGridCellAttrProvider *GetAttrProvider() const; /** Return the attribute for the given cell. By default this function is simply forwarded to wxGridCellAttrProvider::GetAttr() but it may be overridden to handle attributes directly in the table. Prefer to use GetAttrPtr() to avoid the need to call DecRef() on the returned pointer manually. */ virtual wxGridCellAttr *GetAttr(int row, int col, wxGridCellAttr::wxAttrKind kind); /** Return the attribute for the given cell. This method is identical to GetAttr(), but returns a smart pointer, which frees the caller from the need to call DecRef() manually. @since 3.1.4 */ wxGridCellAttrPtr GetAttrPtr(int row, int col, wxGridCellAttr::wxAttrKind kind); /** Set attribute of the specified cell. By default this function is simply forwarded to wxGridCellAttrProvider::SetAttr(). The table takes ownership of @a attr, i.e. will call DecRef() on it. */ virtual void SetAttr(wxGridCellAttr* attr, int row, int col); /** Set attribute of the specified row. By default this function is simply forwarded to wxGridCellAttrProvider::SetRowAttr(). The table takes ownership of @a attr, i.e. will call DecRef() on it. */ virtual void SetRowAttr(wxGridCellAttr *attr, int row); /** Set attribute of the specified column. By default this function is simply forwarded to wxGridCellAttrProvider::SetColAttr(). The table takes ownership of @a attr, i.e. will call DecRef() on it. */ virtual void SetColAttr(wxGridCellAttr *attr, int col); //@} /** Returns true if this table supports attributes or false otherwise. By default, the table automatically creates a wxGridCellAttrProvider when this function is called if it had no attribute provider before and returns @true. */ virtual bool CanHaveAttributes(); /** Override to return true if the same attribute can be used for measuring all cells in the given column. This function is provided for optimization purposes: it returns @false by default, but can be overridden to return @true when all the cells in the same grid column use sensibly the same attribute, i.e. they use the same renderer (either explicitly, or implicitly, due to their type as returned by GetTypeName()) and the font of the same size. Returning @true from this function allows AutoSizeColumns() to skip looking up the attribute and the renderer for each individual cell, which results in very noticeable performance improvements for the grids with many rows. @since 3.1.4 */ virtual bool CanMeasureColUsingSameAttr(int col) const; }; /** Possible types for grid table notifications. */ enum wxGridTableRequest { /// New rows have been inserted into the table. wxGRIDTABLE_NOTIFY_ROWS_INSERTED, /// New rows have been append to the table. wxGRIDTABLE_NOTIFY_ROWS_APPENDED, /// Rows have been deleted from the table. wxGRIDTABLE_NOTIFY_ROWS_DELETED, /// New columns have been inserted into the table. wxGRIDTABLE_NOTIFY_COLS_INSERTED, /// New columns have been append to the table. wxGRIDTABLE_NOTIFY_COLS_APPENDED, /// Columns have been deleted from the table. wxGRIDTABLE_NOTIFY_COLS_DELETED }; /** @class wxGridSizesInfo wxGridSizesInfo stores information about sizes of all wxGrid rows or columns. It assumes that most of the rows or columns (which are both called elements here as the difference between them doesn't matter at this class level) have the default size and so stores it separately. And it uses a wxHashMap to store the sizes of all elements which have the non-default size. This structure is particularly useful for serializing the sizes of all wxGrid elements at once. @library{wxcore} @category{grid} */ struct wxGridSizesInfo { /** Default constructor. m_sizeDefault and m_customSizes must be initialized later. */ wxGridSizesInfo(); /** Constructor. This constructor is used by wxGrid::GetRowSizes() and GetColSizes() methods. User code will usually use the default constructor instead. @param defSize The default element size. @param allSizes Array containing the sizes of @em all elements, including those which have the default size. */ wxGridSizesInfo(int defSize, const wxArrayInt& allSizes); /** Get the element size. @param pos The index of the element. @return The size for this element, using m_customSizes if @a pos is in it or m_sizeDefault otherwise. */ int GetSize(unsigned pos) const; /// Default size int m_sizeDefault; /** Map with element indices as keys and their sizes as values. This map only contains the elements with non-default size. */ wxUnsignedToIntHashMap m_customSizes; }; /** Rendering styles supported by wxGrid::Render() method. @since 2.9.4 */ enum wxGridRenderStyle { /// Draw grid row header labels. wxGRID_DRAW_ROWS_HEADER = 0x001, /// Draw grid column header labels. wxGRID_DRAW_COLS_HEADER = 0x002, /// Draw grid cell border lines. wxGRID_DRAW_CELL_LINES = 0x004, /** Draw a bounding rectangle around the rendered cell area. Useful where row or column headers are not drawn or where there is multi row or column cell clipping and therefore no cell border at the rendered outer boundary. */ wxGRID_DRAW_BOX_RECT = 0x008, /** Draw the grid cell selection highlight if a selection is present. At present the highlight colour drawn depends on whether the grid window loses focus before drawing begins. */ wxGRID_DRAW_SELECTION = 0x010, /** The default render style. Includes all except wxGRID_DRAW_SELECTION. */ wxGRID_DRAW_DEFAULT = wxGRID_DRAW_ROWS_HEADER | wxGRID_DRAW_COLS_HEADER | wxGRID_DRAW_CELL_LINES | wxGRID_DRAW_BOX_RECT }; /** @class wxGrid wxGrid and its related classes are used for displaying and editing tabular data. They provide a rich set of features for display, editing, and interacting with a variety of data sources. For simple applications, and to help you get started, wxGrid is the only class you need to refer to directly. It will set up default instances of the other classes and manage them for you. For more complex applications you can derive your own classes for custom grid views, grid data tables, cell editors and renderers. The @ref overview_grid has examples of simple and more complex applications, explains the relationship between the various grid classes and has a summary of the keyboard shortcuts and mouse functions provided by wxGrid. A wxGridTableBase class holds the actual data to be displayed by a wxGrid class. One or more wxGrid classes may act as a view for one table class. The default table class is called wxGridStringTable and holds an array of strings. An instance of such a class is created by CreateGrid(). wxGridCellRenderer is the abstract base class for rendering contents in a cell. The following renderers are predefined: - wxGridCellBoolRenderer - wxGridCellFloatRenderer - wxGridCellNumberRenderer - wxGridCellStringRenderer - wxGridCellDateRenderer - wxGridCellDateTimeRenderer The look of a cell can be further defined using wxGridCellAttr. An object of this type may be returned by wxGridTableBase::GetAttr(). wxGridCellEditor is the abstract base class for editing the value of a cell. The following editors are predefined: - wxGridCellBoolEditor - wxGridCellChoiceEditor - wxGridCellFloatEditor - wxGridCellNumberEditor - wxGridCellTextEditor - wxGridCellDateEditor Please see wxGridEvent, wxGridSizeEvent, wxGridRangeSelectEvent, and wxGridEditorCreatedEvent for the documentation of all event types you can use with wxGrid. @library{wxcore} @category{grid} @see @ref overview_grid, wxGridUpdateLocker */ class wxGrid : public wxScrolledCanvas { public: /** Different selection modes supported by the grid. */ enum wxGridSelectionModes { /** The default selection mode allowing selection of the individual cells as well as of the entire rows and columns. */ wxGridSelectCells, /** The selection mode allowing the selection of the entire rows only. The user won't be able to select any cells or columns in this mode. */ wxGridSelectRows, /** The selection mode allowing the selection of the entire columns only. The user won't be able to select any cells or rows in this mode. */ wxGridSelectColumns, /** The selection mode allowing the user to select either the entire columns or the entire rows but not individual cells nor blocks. Notice that while this constant is defined as @code wxGridSelectColumns | wxGridSelectRows @endcode this doesn't mean that all the other combinations are valid -- at least currently they are not. @since 2.9.1 */ wxGridSelectRowsOrColumns }; /** Return values for GetCellSize(). @since 2.9.1 */ enum CellSpan { /// This cell is inside a span covered by another cell. CellSpan_Inside = -1, /// This is a normal, non-spanning cell. CellSpan_None = 0, /// This cell spans several physical wxGrid cells. CellSpan_Main }; /** Constants defining different support built-in TAB handling behaviours. The elements of this enum determine what happens when TAB is pressed when the cursor is in the rightmost column (or Shift-TAB is pressed when the cursor is in the leftmost one). @see SetTabBehaviour(), @c wxEVT_GRID_TABBING @since 2.9.5 */ enum TabBehaviour { /// Do nothing, this is default. Tab_Stop, /// Move to the beginning of the next (or the end of the previous) row. Tab_Wrap, /// Move to the next (or the previous) control after the grid. Tab_Leave }; /** @name Constructors and Initialization */ //@{ /** Default constructor. You must call Create() to really create the grid window and also call CreateGrid() or SetTable() or AssignTable() to initialize its contents. */ wxGrid(); /** Constructor creating the grid window. You must call either CreateGrid() or SetTable() or AssignTable() to initialize the grid contents before using it. */ wxGrid(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxWANTS_CHARS, const wxString& name = wxGridNameStr); /** Destructor. This will also destroy the associated grid table unless you passed a table object to the grid and specified that the grid should not take ownership of the table (see SetTable()). */ virtual ~wxGrid(); /** Creates the grid window for an object initialized using the default constructor. You must call either CreateGrid() or SetTable() or AssignTable() to initialize the grid contents before using it. */ bool Create(wxWindow* parent, wxWindowID id, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, long style = wxWANTS_CHARS, const wxString& name = wxGridNameStr); /** Creates a grid with the specified initial number of rows and columns. Call this directly after the grid constructor. When you use this function wxGrid will create and manage a simple table of string values for you. All of the grid data will be stored in memory. For applications with more complex data types or relationships, or for dealing with very large datasets, you should derive your own grid table class and pass a table object to the grid with SetTable() or AssignTable(). */ bool CreateGrid(int numRows, int numCols, wxGridSelectionModes selmode = wxGridSelectCells); /** Passes a pointer to a custom grid table to be used by the grid. This should be called after the grid constructor and before using the grid object. If @a takeOwnership is set to @true then the table will be deleted by the wxGrid destructor. Use this function instead of CreateGrid() when your application involves complex or non-string data or data sets that are too large to fit wholly in memory. When the custom table should be owned by the grid, consider using the simpler AssignTable() function instead of this one with @true value of @a takeOwnership parameter. */ bool SetTable(wxGridTableBase* table, bool takeOwnership = false, wxGridSelectionModes selmode = wxGridSelectCells); /** Assigns a pointer to a custom grid table to be used by the grid. This function is identical to SetTable() with @c takeOwnership parameter set to @true, i.e. it simply always takes the ownership of the passed in pointer. This makes it simpler to use than SetTable() in the common case when the table should be owned by the grid object. Note that this function should be called at most once and can't be used to change the table used by the grid later on or reset it: if such extra flexibility is needed, use SetTable() directly. @since 3.1.4 @param table The heap-allocated pointer to the table. @param selmode Selection mode to use. */ void AssignTable( wxGridTableBase *table, wxGridSelectionModes selmode = wxGridSelectCells); /** Receive and handle a message from the table. */ bool ProcessTableMessage(wxGridTableMessage& msg); //@} /** @name Grid Line Formatting */ //@{ /** Turns the drawing of grid lines on or off. */ void EnableGridLines(bool enable = true); /** Returns the pen used for vertical grid lines. This virtual function may be overridden in derived classes in order to change the appearance of individual grid lines for the given column @a col. See GetRowGridLinePen() for an example. */ virtual wxPen GetColGridLinePen(int col); /** Returns the pen used for grid lines. This virtual function may be overridden in derived classes in order to change the appearance of grid lines. Note that currently the pen width must be 1. @see GetColGridLinePen(), GetRowGridLinePen() */ virtual wxPen GetDefaultGridLinePen(); /** Returns the colour used for grid lines. @see GetDefaultGridLinePen() */ wxColour GetGridLineColour() const; /** Returns the pen used for horizontal grid lines. This virtual function may be overridden in derived classes in order to change the appearance of individual grid line for the given @a row. Example: @code // in a grid displaying music notation, use a solid black pen between // octaves (C0=row 127, C1=row 115 etc.) wxPen MidiGrid::GetRowGridLinePen(int row) { if ( row % 12 == 7 ) return wxPen(*wxBLACK, 1, wxPENSTYLE_SOLID); else return GetDefaultGridLinePen(); } @endcode */ virtual wxPen GetRowGridLinePen(int row); /** Returns @true if drawing of grid lines is turned on, @false otherwise. */ bool GridLinesEnabled() const; /** Sets the colour used to draw grid lines. */ void SetGridLineColour(const wxColour& colour); //@} /** @name Label Values and Formatting */ //@{ /** Sets the arguments to the current column label alignment values. Horizontal alignment will be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment will be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void GetColLabelAlignment(int* horiz, int* vert) const; /** Returns the orientation of the column labels (either @c wxHORIZONTAL or @c wxVERTICAL). */ int GetColLabelTextOrientation() const; /** Returns the specified column label. The default grid table class provides column labels of the form A,B...Z,AA,AB...ZZ,AAA... If you are using a custom grid table you can override wxGridTableBase::GetColLabelValue() to provide your own labels. */ wxString GetColLabelValue(int col) const; /** Sets the arguments to the current corner label alignment values. Horizontal alignment will be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment will be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. @since 3.1.2 */ void GetCornerLabelAlignment( int *horiz, int *vert ) const; /** Returns the orientation of the corner label (either @c wxHORIZONTAL or @c wxVERTICAL). @since 3.1.2 */ int GetCornerLabelTextOrientation() const; /** Returns the (top-left) corner label. @since 3.1.2 */ wxString GetCornerLabelValue() const; /** Returns the colour used for the background of row and column labels. */ wxColour GetLabelBackgroundColour() const; /** Returns the font used for row and column labels. */ wxFont GetLabelFont() const; /** Returns the colour used for row and column label text. */ wxColour GetLabelTextColour() const; /** Returns the alignment used for row labels. Horizontal alignment will be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment will be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void GetRowLabelAlignment(int* horiz, int* vert) const; /** Returns the specified row label. The default grid table class provides numeric row labels. If you are using a custom grid table you can override wxGridTableBase::GetRowLabelValue() to provide your own labels. */ wxString GetRowLabelValue(int row) const; /** Hides the column labels by calling SetColLabelSize() with a size of 0. The labels can be shown again by calling SetColLabelSize() with a height greater than 0. Note that when the column labels are hidden, the grid won't have any visible border on the top side, which may result in a less than ideal appearance. Because of this, you may want to create the grid window with a border style, such as @c wxBORDER_SIMPLE, when you don't plan to show the column labels for it. @see HideRowLabels() */ void HideColLabels(); /** Hides the row labels by calling SetRowLabelSize() with a size of 0. The labels can be shown again by calling SetRowLabelSize() with a width greater than 0. See HideColLabels() for a note explaining why you may want to use a border with a grid without the row labels. */ void HideRowLabels(); /** Sets the horizontal and vertical alignment of column label text. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void SetColLabelAlignment(int horiz, int vert); /** Sets the orientation of the column labels (either @c wxHORIZONTAL or @c wxVERTICAL). */ void SetColLabelTextOrientation(int textOrientation); /** Set the value for the given column label. If you are using a custom grid table you must override wxGridTableBase::SetColLabelValue() for this to have any effect. */ void SetColLabelValue(int col, const wxString& value); /** Sets the horizontal and vertical alignment of the (top-left) corner label text. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. @since 3.1.2 */ void SetCornerLabelAlignment( int horiz, int vert ); /** Sets the orientation of the (top-left) corner label (either @c wxHORIZONTAL or @c wxVERTICAL). @since 3.1.2 */ void SetCornerLabelTextOrientation( int textOrientation ); /** Set the value for the (top-left) corner label. If you are using a custom grid table you must override wxGridTableBase::SetCornerLabelValue() for this to have any effect. @since 3.1.2 */ void SetCornerLabelValue( const wxString& ); /** Sets the background colour for row and column labels. */ void SetLabelBackgroundColour(const wxColour& colour); /** Sets the font for row and column labels. */ void SetLabelFont(const wxFont& font); /** Sets the colour for row and column label text. */ void SetLabelTextColour(const wxColour& colour); /** Sets the horizontal and vertical alignment of row label text. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void SetRowLabelAlignment(int horiz, int vert); /** Sets the value for the given row label. If you are using a derived grid table you must override wxGridTableBase::SetRowLabelValue() for this to have any effect. */ void SetRowLabelValue(int row, const wxString& value); /** Call this in order to make the column labels use a native look by using wxRendererNative::DrawHeaderButton() internally. There is no equivalent method for drawing row columns as there is not native look for that. This option is useful when using wxGrid for displaying tables and not as a spread-sheet. @see UseNativeColHeader() */ void SetUseNativeColLabels(bool native = true); /** Enable the use of native header window for column labels. If this function is called with @true argument, a wxHeaderCtrl is used instead to display the column labels instead of drawing them in wxGrid code itself. This has the advantage of making the grid look and feel perfectly the same as native applications (using SetUseNativeColLabels() the grid can be made to look more natively but it still doesn't feel natively, notably the column resizing and dragging still works slightly differently as it is implemented in wxWidgets itself) but results in different behaviour for column and row headers, for which there is no equivalent function, and, most importantly, is unsuitable for grids with huge numbers of columns as wxHeaderCtrl doesn't support virtual mode. Because of this, by default the grid does not use the native header control but you should call this function to enable it if you are using the grid to display tabular data and don't have thousands of columns in it. Another difference between the default behaviour and the native header behaviour is that the latter provides the user with a context menu (which appears on right clicking the header) allowing to rearrange the grid columns if CanDragColMove() returns @true. If you want to prevent this from happening for some reason, you need to define a handler for @c wxEVT_GRID_LABEL_RIGHT_CLICK event which simply does nothing (in particular doesn't skip the event) as this will prevent the default right click handling from working. Also note that currently @c wxEVT_GRID_LABEL_RIGHT_DCLICK event is not generated for the column labels if the native columns header is used (but this limitation could possibly be lifted in the future). Finally, please note that using the native control is currently incompatible with freezing columns in the grid (see FreezeTo()) and this function will return @false, without doing anything, if it's called on a grid in which any columns are frozen. */ bool UseNativeColHeader(bool native = true); //@} /*! @name Cell Formatting Note that wxGridCellAttr can be used alternatively to most of these methods. See the "Attributes Management" of wxGridTableBase. */ //@{ /** Sets the arguments to the horizontal and vertical text alignment values for the grid cell at the specified location. Horizontal alignment will be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment will be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void GetCellAlignment(int row, int col, int* horiz, int* vert) const; /** Returns the background colour of the cell at the specified location. */ wxColour GetCellBackgroundColour(int row, int col) const; /** Returns the font for text in the grid cell at the specified location. */ wxFont GetCellFont(int row, int col) const; /** Returns the text colour for the grid cell at the specified location. */ wxColour GetCellTextColour(int row, int col) const; /** Returns the default cell alignment. Horizontal alignment will be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment will be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. @see SetDefaultCellAlignment() */ void GetDefaultCellAlignment(int* horiz, int* vert) const; /** Returns the current default background colour for grid cells. */ wxColour GetDefaultCellBackgroundColour() const; /** Returns the current default font for grid cell text. */ wxFont GetDefaultCellFont() const; /** Returns the current default colour for grid cell text. */ wxColour GetDefaultCellTextColour() const; /** Sets the horizontal and vertical alignment for grid cell text at the specified location. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void SetCellAlignment(int row, int col, int horiz, int vert); /** Sets the horizontal and vertical alignment for grid cell text at the specified location. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. @deprecated Please use SetCellAlignment(row, col, horiz, vert) instead. */ void SetCellAlignment(int align, int row, int col); /** Set the background colour for the given cell or all cells by default. */ void SetCellBackgroundColour(int row, int col, const wxColour& colour); /** Sets the font for text in the grid cell at the specified location. */ void SetCellFont(int row, int col, const wxFont& font); /** Sets the text colour for the given cell. */ void SetCellTextColour(int row, int col, const wxColour& colour); /** Sets the text colour for the given cell. @deprecated Please use SetCellTextColour(row, col, colour) */ void SetCellTextColour(const wxColour& val, int row, int col); /** Sets the text colour for all cells by default. @deprecated Please use SetDefaultCellTextColour(colour) instead. */ void SetCellTextColour(const wxColour& colour); /** Sets the default horizontal and vertical alignment for grid cell text. Horizontal alignment should be one of @c wxALIGN_LEFT, @c wxALIGN_CENTRE or @c wxALIGN_RIGHT. Vertical alignment should be one of @c wxALIGN_TOP, @c wxALIGN_CENTRE or @c wxALIGN_BOTTOM. */ void SetDefaultCellAlignment(int horiz, int vert); /** Sets the default background colour for grid cells. */ void SetDefaultCellBackgroundColour(const wxColour& colour); /** Sets the default font to be used for grid cell text. */ void SetDefaultCellFont(const wxFont& font); /** Sets the current default colour for grid cell text. */ void SetDefaultCellTextColour(const wxColour& colour); //@} /*! @name Cell Values, Editors, and Renderers Note that wxGridCellAttr can be used alternatively to most of these methods. See the "Attributes Management" of wxGridTableBase. */ //@{ /** Returns @true if the in-place edit control for the current grid cell can be used and @false otherwise. This function always returns @false for the read-only cells. */ bool CanEnableCellControl() const; /** Disables in-place editing of grid cells. Equivalent to calling EnableCellEditControl(@false). */ void DisableCellEditControl(); /** Enables or disables in-place editing of grid cell data. Enabling in-place editing generates @c wxEVT_GRID_EDITOR_SHOWN and, if it isn't vetoed by the application, shows the in-place editor which allows the user to change the cell value. Disabling in-place editing does nothing if the in-place editor isn't currently shown, otherwise the @c wxEVT_GRID_EDITOR_HIDDEN event is generated but, unlike the "shown" event, it can't be vetoed and the in-place editor is dismissed unconditionally. Note that it is an error to call this function if the current cell is read-only, use CanEnableCellControl() to check for this precondition. */ void EnableCellEditControl(bool enable = true); /** Makes the grid globally editable or read-only. If the edit argument is @false this function sets the whole grid as read-only. If the argument is @true the grid is set to the default state where cells may be editable. In the default state you can set single grid cells and whole rows and columns to be editable or read-only via wxGridCellAttr::SetReadOnly(). For single cells you can also use the shortcut function SetReadOnly(). For more information about controlling grid cell attributes see the wxGridCellAttr class and the @ref overview_grid. */ void EnableEditing(bool edit); /** Returns a pointer to the editor for the cell at the specified location. See wxGridCellEditor and the @ref overview_grid for more information about cell editors and renderers. The caller must call DecRef() on the returned pointer. */ wxGridCellEditor* GetCellEditor(int row, int col) const; /** Returns a pointer to the renderer for the grid cell at the specified location. See wxGridCellRenderer and the @ref overview_grid for more information about cell editors and renderers. The caller must call DecRef() on the returned pointer. */ wxGridCellRenderer* GetCellRenderer(int row, int col) const; /** Returns the string contained in the cell at the specified location. For simple applications where a grid object automatically uses a default grid table of string values you use this function together with SetCellValue() to access cell values. For more complex applications where you have derived your own grid table class that contains various data types (e.g. numeric, boolean or user-defined custom types) then you only use this function for those cells that contain string values. See wxGridTableBase::CanGetValueAs() and the @ref overview_grid for more information. */ wxString GetCellValue(int row, int col) const; /** Returns the string contained in the cell at the specified location. For simple applications where a grid object automatically uses a default grid table of string values you use this function together with SetCellValue() to access cell values. For more complex applications where you have derived your own grid table class that contains various data types (e.g. numeric, boolean or user-defined custom types) then you only use this function for those cells that contain string values. See wxGridTableBase::CanGetValueAs() and the @ref overview_grid for more information. */ wxString GetCellValue(const wxGridCellCoords& coords) const; /** Returns a pointer to the current default grid cell editor. See wxGridCellEditor and the @ref overview_grid for more information about cell editors and renderers. */ wxGridCellEditor* GetDefaultEditor() const; /** Returns the default editor for the specified cell. The base class version returns the editor appropriate for the current cell type but this method may be overridden in the derived classes to use custom editors for some cells by default. Notice that the same may be achieved in a usually simpler way by associating a custom editor with the given cell or cells. The caller must call DecRef() on the returned pointer. */ virtual wxGridCellEditor* GetDefaultEditorForCell(int row, int col) const; /** Returns the default editor for the specified cell. The base class version returns the editor appropriate for the current cell type but this method may be overridden in the derived classes to use custom editors for some cells by default. Notice that the same may be achieved in a usually simpler way by associating a custom editor with the given cell or cells. The caller must call DecRef() on the returned pointer. */ wxGridCellEditor* GetDefaultEditorForCell(const wxGridCellCoords& c) const; /** Returns the default editor for the cells containing values of the given type. The base class version returns the editor which was associated with the specified @a typeName when it was registered RegisterDataType() but this function may be overridden to return something different. This allows overriding an editor used for one of the standard types. The caller must call DecRef() on the returned pointer. */ virtual wxGridCellEditor* GetDefaultEditorForType(const wxString& typeName) const; /** Returns a pointer to the current default grid cell renderer. See wxGridCellRenderer and the @ref overview_grid for more information about cell editors and renderers. The caller must call DecRef() on the returned pointer. */ wxGridCellRenderer* GetDefaultRenderer() const; /** Returns the default renderer for the given cell. The base class version returns the renderer appropriate for the current cell type but this method may be overridden in the derived classes to use custom renderers for some cells by default. The caller must call DecRef() on the returned pointer. */ virtual wxGridCellRenderer* GetDefaultRendererForCell(int row, int col) const; /** Returns the default renderer for the cell containing values of the given type. @see GetDefaultEditorForType() */ virtual wxGridCellRenderer* GetDefaultRendererForType(const wxString& typeName) const; /** Hides the in-place cell edit control. */ void HideCellEditControl(); /** Returns @true if the in-place edit control is currently enabled. */ bool IsCellEditControlEnabled() const; /** Returns @true if the in-place edit control is currently shown. @see HideCellEditControl() */ bool IsCellEditControlShown() const; /** Returns @true if the current cell is read-only. @see SetReadOnly(), IsReadOnly() */ bool IsCurrentCellReadOnly() const; /** Returns @false if the whole grid has been set as read-only or @true otherwise. See EnableEditing() for more information about controlling the editing status of grid cells. */ bool IsEditable() const; /** Returns @true if the cell at the specified location can't be edited. @see SetReadOnly(), IsCurrentCellReadOnly() */ bool IsReadOnly(int row, int col) const; /** Register a new data type. The data types allow to naturally associate specific renderers and editors to the cells containing values of the given type. For example, the grid automatically registers a data type with the name @c wxGRID_VALUE_STRING which uses wxGridCellStringRenderer and wxGridCellTextEditor as its renderer and editor respectively -- this is the data type used by all the cells of the default wxGridStringTable, so this renderer and editor are used by default for all grid cells. However if a custom table returns @c wxGRID_VALUE_BOOL from its wxGridTableBase::GetTypeName() method, then wxGridCellBoolRenderer and wxGridCellBoolEditor are used for it because the grid also registers a boolean data type with this name. And as this mechanism is completely generic, you may register your own data types using your own custom renderers and editors. Just remember that the table must identify a cell as being of the given type for them to be used for this cell. @param typeName Name of the new type. May be any string, but if the type name is the same as the name of an already registered type, including one of the standard ones (which are @c wxGRID_VALUE_STRING, @c wxGRID_VALUE_BOOL, @c wxGRID_VALUE_NUMBER, @c wxGRID_VALUE_FLOAT, @c wxGRID_VALUE_CHOICE and @c wxGRID_VALUE_DATE), then the new registration information replaces the previously used renderer and editor. @param renderer The renderer to use for the cells of this type. Its ownership is taken by the grid, i.e. it will call DecRef() on this pointer when it doesn't need it any longer. @param editor The editor to use for the cells of this type. Its ownership is also taken by the grid. */ void RegisterDataType(const wxString& typeName, wxGridCellRenderer* renderer, wxGridCellEditor* editor); /** Sets the value of the current grid cell to the current in-place edit control value. This is called automatically when the grid cursor moves from the current cell to a new cell. It is also a good idea to call this function when closing a grid since any edits to the final cell location will not be saved otherwise. */ void SaveEditControlValue(); /** Sets the editor for the grid cell at the specified location. The grid will take ownership of the pointer. See wxGridCellEditor and the @ref overview_grid for more information about cell editors and renderers. */ void SetCellEditor(int row, int col, wxGridCellEditor* editor); /** Sets the renderer for the grid cell at the specified location. The grid will take ownership of the pointer. See wxGridCellRenderer and the @ref overview_grid for more information about cell editors and renderers. */ void SetCellRenderer(int row, int col, wxGridCellRenderer* renderer); /** Sets the string value for the cell at the specified location. For simple applications where a grid object automatically uses a default grid table of string values you use this function together with GetCellValue() to access cell values. For more complex applications where you have derived your own grid table class that contains various data types (e.g. numeric, boolean or user-defined custom types) then you only use this function for those cells that contain string values. See wxGridTableBase::CanSetValueAs() and the @ref overview_grid for more information. */ void SetCellValue(int row, int col, const wxString& s); /** Sets the string value for the cell at the specified location. For simple applications where a grid object automatically uses a default grid table of string values you use this function together with GetCellValue() to access cell values. For more complex applications where you have derived your own grid table class that contains various data types (e.g. numeric, boolean or user-defined custom types) then you only use this function for those cells that contain string values. See wxGridTableBase::CanSetValueAs() and the @ref overview_grid for more information. */ void SetCellValue(const wxGridCellCoords& coords, const wxString& s); /** @deprecated Please use SetCellValue(int,int,const wxString&) or SetCellValue(const wxGridCellCoords&,const wxString&) instead. Sets the string value for the cell at the specified location. For simple applications where a grid object automatically uses a default grid table of string values you use this function together with GetCellValue() to access cell values. For more complex applications where you have derived your own grid table class that contains various data types (e.g. numeric, boolean or user-defined custom types) then you only use this function for those cells that contain string values. See wxGridTableBase::CanSetValueAs() and the @ref overview_grid for more information. */ void SetCellValue(const wxString& val, int row, int col); /** Sets the specified column to display boolean values. @see SetColFormatCustom() */ void SetColFormatBool(int col); /** Sets the specified column to display data in a custom format. This method provides an alternative to defining a custom grid table which would return @a typeName from its GetTypeName() method for the cells in this column: while it doesn't really change the type of the cells in this column, it does associate the renderer and editor used for the cells of the specified type with them. See the @ref overview_grid for more information on working with custom data types. */ void SetColFormatCustom(int col, const wxString& typeName); /** Sets the specified column to display floating point values with the given width and precision. @see SetColFormatCustom() */ void SetColFormatFloat(int col, int width = -1, int precision = -1); /** Sets the specified column to display integer values. @see SetColFormatCustom() */ void SetColFormatNumber(int col); /** Sets the specified column to display date values. The @a format argument is used with wxGridCellDateRenderer and allows to specify the strftime-like format string to use for displaying the dates in this column. @see SetColFormatCustom() @since 3.1.3 */ void SetColFormatDate(int col, const wxString& format = wxString()); /** Sets the default editor for grid cells. The grid will take ownership of the pointer. See wxGridCellEditor and the @ref overview_grid for more information about cell editors and renderers. */ void SetDefaultEditor(wxGridCellEditor* editor); /** Sets the default renderer for grid cells. The grid will take ownership of the pointer. See wxGridCellRenderer and the @ref overview_grid for more information about cell editors and renderers. */ void SetDefaultRenderer(wxGridCellRenderer* renderer); /** Makes the cell at the specified location read-only or editable. @see IsReadOnly() */ void SetReadOnly(int row, int col, bool isReadOnly = true); /** Displays the active in-place cell edit control for the current cell after it was hidden. This method should only be called after calling HideCellEditControl(), to start editing the current grid cell use EnableCellEditControl() instead. */ void ShowCellEditControl(); //@} /** @name Column and Row Sizes @see @ref overview_grid_resizing */ //@{ /** Automatically sets the height and width of all rows and columns to fit their contents. */ void AutoSize(); /** Automatically adjusts width of the column to fit its label. */ void AutoSizeColLabelSize(int col); /** Automatically sizes the column to fit its contents. If @a setAsMin is @true the calculated width will also be set as the minimal width for the column. */ void AutoSizeColumn(int col, bool setAsMin = true); /** Automatically sizes all columns to fit their contents. If @a setAsMin is @true the calculated widths will also be set as the minimal widths for the columns. */ void AutoSizeColumns(bool setAsMin = true); /** Automatically sizes the row to fit its contents. If @a setAsMin is @true the calculated height will also be set as the minimal height for the row. */ void AutoSizeRow(int row, bool setAsMin = true); /** Automatically adjusts height of the row to fit its label. */ void AutoSizeRowLabelSize(int col); /** Automatically sizes all rows to fit their contents. If @a setAsMin is @true the calculated heights will also be set as the minimal heights for the rows. */ void AutoSizeRows(bool setAsMin = true); /** Returns the cell fitting mode. @see wxGridFitMode @since 3.1.4 */ wxGridFitMode GetCellFitMode(int row, int col) const; /** Returns @true if the cell value can overflow. This is identical to calling GetCellFitMode() and using wxGridFitMode::IsOverflow() on the returned value. Prefer using GetCellFitMode() directly in the new code. */ bool GetCellOverflow(int row, int col) const; /** Returns the current height of the column labels. */ int GetColLabelSize() const; /** Returns the minimal width to which a column may be resized. Use SetColMinimalAcceptableWidth() to change this value globally or SetColMinimalWidth() to do it for individual columns. @see GetRowMinimalAcceptableHeight() */ int GetColMinimalAcceptableWidth() const; /** Returns the width of the specified column. */ int GetColSize(int col) const; /** Returns @true if the specified column is not currently hidden. */ bool IsColShown(int col) const; /** Returns the default cell fitting mode. The default mode is "overflow", but can be modified using SetDefaultCellFitMode(). @see wxGridFitMode @since 3.1.4 */ wxGridFitMode GetDefaultCellFitMode() const; /** Returns @true if the cells can overflow by default. This is identical to calling GetDefaultCellFitMode() and using wxGridFitMode::IsOverflow() on the returned value. Prefer using GetDefaultCellFitMode() directly in the new code. */ bool GetDefaultCellOverflow() const; /** Returns the default height for column labels. */ int GetDefaultColLabelSize() const; /** Returns the current default width for grid columns. */ int GetDefaultColSize() const; /** Returns the default width for the row labels. */ int GetDefaultRowLabelSize() const; /** Returns the current default height for grid rows. */ int GetDefaultRowSize() const; /** Returns the minimal size to which rows can be resized. Use SetRowMinimalAcceptableHeight() to change this value globally or SetRowMinimalHeight() to do it for individual cells. @see GetColMinimalAcceptableWidth() */ int GetRowMinimalAcceptableHeight() const; /** Returns the current width of the row labels. */ int GetRowLabelSize() const; /** Returns the height of the specified row. */ int GetRowSize(int row) const; /** Returns @true if the specified row is not currently hidden. */ bool IsRowShown(int row) const; /** Specifies the behaviour of the cell contents if it doesn't fit into the available space. @see wxGridFitMode @since 3.1.4 */ void SetCellFitMode(int row, int col, wxGridFitMode fitMode); /** Sets the overflow permission of the cell. Prefer using SetCellFitMode() in the new code. */ void SetCellOverflow(int row, int col, bool allow); /** Sets the height of the column labels. If @a height equals to @c wxGRID_AUTOSIZE then height is calculated automatically so that no label is truncated. Note that this could be slow for a large table. */ void SetColLabelSize(int height); /** Sets the minimal @a width to which the user can resize columns. @see GetColMinimalAcceptableWidth() */ void SetColMinimalAcceptableWidth(int width); /** Sets the minimal @a width for the specified column @a col. It is usually best to call this method during grid creation as calling it later will not resize the column to the given minimal width even if it is currently narrower than it. @a width must be greater than the minimal acceptable column width as returned by GetColMinimalAcceptableWidth(). */ void SetColMinimalWidth(int col, int width); /** Sets the width of the specified column. @param col The column index. @param width The new column width in pixels, 0 to hide the column or -1 to fit the column width to its label width. */ void SetColSize(int col, int width); /** Hides the specified column. To show the column later you need to call SetColSize() with non-0 width or ShowCol() to restore the previous column width. If the column is already hidden, this method doesn't do anything. @param col The column index. */ void HideCol(int col); /** Shows the previously hidden column by resizing it to non-0 size. The column is shown again with the same width that it had before HideCol() call. If the column is currently shown, this method doesn't do anything. @see HideCol(), SetColSize() */ void ShowCol(int col); /** Specifies the default behaviour of the cell contents if it doesn't fit into the available space. @see wxGridFitMode @since 3.1.4 */ void SetDefaultCellFitMode(wxGridFitMode fitMode); /** Sets the default overflow permission of the cells. Prefer using SetDefaultCellFitMode() in the new code. */ void SetDefaultCellOverflow( bool allow ); /** Sets the default width for columns in the grid. This will only affect columns subsequently added to the grid unless @a resizeExistingCols is @true. If @a width is less than GetColMinimalAcceptableWidth(), then the minimal acceptable width is used instead of it. */ void SetDefaultColSize(int width, bool resizeExistingCols = false); /** Sets the default height for rows in the grid. This will only affect rows subsequently added to the grid unless @a resizeExistingRows is @true. If @a height is less than GetRowMinimalAcceptableHeight(), then the minimal acceptable height is used instead of it. */ void SetDefaultRowSize(int height, bool resizeExistingRows = false); /** Sets the width of the row labels. If @a width equals @c wxGRID_AUTOSIZE then width is calculated automatically so that no label is truncated. Note that this could be slow for a large table. */ void SetRowLabelSize(int width); /** Sets the minimal row @a height used by default. See SetColMinimalAcceptableWidth() for more information. */ void SetRowMinimalAcceptableHeight(int height); /** Sets the minimal @a height for the specified @a row. See SetColMinimalWidth() for more information. */ void SetRowMinimalHeight(int row, int height); /** Sets the height of the specified row. See SetColSize() for more information. */ void SetRowSize(int row, int height); /** Hides the specified row. To show the row later you need to call SetRowSize() with non-0 width or ShowRow() to restore its original height. If the row is already hidden, this method doesn't do anything. @param col The row index. */ void HideRow(int col); /** Shows the previously hidden row. The row is shown again with the same height that it had before HideRow() call. If the row is currently shown, this method doesn't do anything. @see HideRow(), SetRowSize() */ void ShowRow(int col); /** Get size information for all columns at once. This method is useful when the information about all column widths needs to be saved. The widths can be later restored using SetColSizes(). @sa wxGridSizesInfo, GetRowSizes() */ wxGridSizesInfo GetColSizes() const; /** Get size information for all row at once. @sa wxGridSizesInfo, GetColSizes() */ wxGridSizesInfo GetRowSizes() const; /** Restore all columns sizes. This is usually called with wxGridSizesInfo object previously returned by GetColSizes(). @sa SetRowSizes() */ void SetColSizes(const wxGridSizesInfo& sizeInfo); /** Restore all rows sizes. @sa SetColSizes() */ void SetRowSizes(const wxGridSizesInfo& sizeInfo); /** Set the size of the cell. Specifying a value of more than 1 in @a num_rows or @a num_cols will make the cell at (@a row, @a col) span the block of the specified size, covering the other cells which would be normally shown in it. Passing 1 for both arguments resets the cell to normal appearance. @see GetCellSize() @param row The row of the cell. @param col The column of the cell. @param num_rows Number of rows to be occupied by this cell, must be >= 1. @param num_cols Number of columns to be occupied by this cell, must be >= 1. */ void SetCellSize(int row, int col, int num_rows, int num_cols); /** Get the size of the cell in number of cells covered by it. For normal cells, the function fills both @a num_rows and @a num_cols with 1 and returns CellSpan_None. For cells which span multiple cells, i.e. for which SetCellSize() had been called, the returned values are the same ones as were passed to SetCellSize() call and the function return value is CellSpan_Main. More unexpectedly, perhaps, the returned values may be @em negative for the cells which are inside a span covered by a cell occupying multiple rows or columns. They correspond to the offset of the main cell of the span from the cell passed to this functions and the function returns CellSpan_Inside value to indicate this. As an example, consider a 3*3 grid with the cell (1, 1) (the one in the middle) having a span of 2 rows and 2 columns, i.e. the grid looks like @code +----+----+----+ | | | | +----+----+----+ | | | +----+ | | | | +----+----+----+ @endcode Then the function returns 2 and 2 in @a num_rows and @a num_cols for the cell (1, 1) itself and -1 and -1 for the cell (2, 2) as well as -1 and 0 for the cell (2, 1). @param row The row of the cell. @param col The column of the cell. @param num_rows Pointer to variable receiving the number of rows, must not be @NULL. @param num_cols Pointer to variable receiving the number of columns, must not be @NULL. @return The kind of this cell span (the return value is new in wxWidgets 2.9.1, this function was void in previous wxWidgets versions). */ CellSpan GetCellSize( int row, int col, int *num_rows, int *num_cols ) const; /** Get the number of rows and columns allocated for this cell. This overload doesn't return a CellSpan value but the values returned may still be negative, see GetCellSize(int, int, int *, int *) for details. */ wxSize GetCellSize(const wxGridCellCoords& coords); //@} /** @name User-Resizing and Dragging Functions controlling various interactive mouse operations. By default, columns and rows can be resized by dragging the edges of their labels (this can be disabled using DisableDragColSize() and DisableDragRowSize() methods). And if grid line dragging is enabled with EnableDragGridSize() they can also be resized by dragging the right or bottom edge of the grid cells. Columns can also be moved to interactively change their order but this needs to be explicitly enabled with EnableDragColMove(). */ //@{ /** Return @true if the dragging of cells is enabled or @false otherwise. */ bool CanDragCell() const; /** Returns @true if columns can be moved by dragging with the mouse. Columns can be moved by dragging on their labels. */ bool CanDragColMove() const; /** Returns @true if the given column can be resized by dragging with the mouse. This function returns @true if resizing the columns interactively is globally enabled, i.e. if DisableDragColSize() hadn't been called, and if this column wasn't explicitly marked as non-resizable with DisableColResize(). */ bool CanDragColSize(int col) const; /** Return @true if column edges inside the grid can be dragged to resize the rows. @see CanDragGridSize(), CanDragColSize() @since 3.1.4 */ bool CanDragGridColEdges() const; /** Return @true if row edges inside the grid can be dragged to resize the rows. @see CanDragGridSize(), CanDragRowSize() @since 3.1.4 */ bool CanDragGridRowEdges() const; /** Return @true if the dragging of grid lines to resize rows and columns is enabled or @false otherwise. */ bool CanDragGridSize() const; /** Returns @true if the given row can be resized by dragging with the mouse. This is the same as CanDragColSize() but for rows. */ bool CanDragRowSize(int row) const; /** Returns @true if columns can be hidden from the popup menu of the native header. @since 3.1.3 */ bool CanHideColumns() const; /** Disable interactive resizing of the specified column. This method allows one to disable resizing of an individual column in a grid where the columns are otherwise resizable (which is the case by default). Notice that currently there is no way to make some columns resizable in a grid where columns can't be resized by default as there doesn't seem to be any need for this in practice. There is also no way to make the column marked as fixed using this method resizable again because it is supposed that fixed columns are used for static parts of the grid and so should remain fixed during the entire grid lifetime. Also notice that disabling interactive column resizing will not prevent the program from changing the column size. @see EnableDragColSize() */ void DisableColResize(int col); /** Disable interactive resizing of the specified row. This is the same as DisableColResize() but for rows. @see EnableDragRowSize() */ void DisableRowResize(int row); /** Disables column moving by dragging with the mouse. Equivalent to passing @false to EnableDragColMove(). */ void DisableDragColMove(); /** Disables column sizing by dragging with the mouse. Equivalent to passing @false to EnableDragColSize(). */ void DisableDragColSize(); /** Disable mouse dragging of grid lines to resize rows and columns. Equivalent to passing @false to EnableDragGridSize() */ void DisableDragGridSize(); /** Disables row sizing by dragging with the mouse. Equivalent to passing @false to EnableDragRowSize(). */ void DisableDragRowSize(); /** Disables column hiding from the header popup menu. Equivalent to passing @false to EnableHidingColumns(). @since 3.1.3 */ void DisableHidingColumns(); /** Enables or disables cell dragging with the mouse. */ void EnableDragCell(bool enable = true); /** Enables or disables column moving by dragging with the mouse. Note that reordering columns by dragging them is currently not supported when the grid has any frozen columns (see FreezeTo()) and if this method is called with @a enable equal to @true in this situation, it returns @false without doing anything. Otherwise it returns @true to indicate that it was successful. */ bool EnableDragColMove(bool enable = true); /** Enables or disables column sizing by dragging with the mouse. @see DisableColResize() */ void EnableDragColSize(bool enable = true); /** Enables or disables row and column resizing by dragging gridlines with the mouse. */ void EnableDragGridSize(bool enable = true); /** Enables or disables row sizing by dragging with the mouse. @see DisableRowResize() */ void EnableDragRowSize(bool enable = true); /** Enables or disables column hiding from the header popup menu. Note that currently the popup menu can only be shown when using wxHeaderCtrl, i.e. if UseNativeColHeader() had been called. If the native header is not used, this method always simply returns @false without doing anything, as hiding columns is not supported anyhow. If @a enable value is the same as CanHideColumns(), it also returns @false to indicate that nothing was done. Otherwise, it returns @true to indicate that the value of this option was successfully changed. The main use case for this method is to disallow hiding the columns interactively when using the native header. @since 3.1.3 @see DisableHidingColumns() */ bool EnableHidingColumns(bool enable = true); /** Returns the column ID of the specified column position. */ int GetColAt(int colPos) const; /** Returns the position of the specified column. */ int GetColPos(int colID) const; /** Sets the position of the specified column. */ void SetColPos(int colID, int newPos); /** Sets the positions of all columns at once. This method takes an array containing the indices of the columns in their display order, i.e. uses the same convention as wxHeaderCtrl::SetColumnsOrder(). */ void SetColumnsOrder(const wxArrayInt& order); /** Resets the position of the columns to the default. */ void ResetColPos(); //@} /** @name Cursor Movement */ //@{ /** Returns the current grid cursor position. If grid cursor doesn't have any valid position (e.g. if the grid is completely empty and doesn't have any rows or columns), returns @c wxGridNoCellCoords which has both row and columns set to @c -1. @since 3.1.3 */ const wxGridCellCoords& GetGridCursorCoords() const; /** Returns the current grid cell column position. @see GetGridCursorCoords() */ int GetGridCursorCol() const; /** Returns the current grid cell row position. @see GetGridCursorCoords() */ int GetGridCursorRow() const; /** Make the given cell current and ensure it is visible. This method is equivalent to calling MakeCellVisible() and SetGridCursor() and so, as with the latter, a @c wxEVT_GRID_SELECT_CELL event is generated by it and the selected cell doesn't change if the event is vetoed. */ void GoToCell(int row, int col); /** Make the given cell current and ensure it is visible. This method is equivalent to calling MakeCellVisible() and SetGridCursor() and so, as with the latter, a @c wxEVT_GRID_SELECT_CELL event is generated by it and the selected cell doesn't change if the event is vetoed. */ void GoToCell(const wxGridCellCoords& coords); /** Moves the grid cursor down by one row. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorDown(bool expandSelection); /** Moves the grid cursor down in the current column such that it skips to the beginning or end of a block of non-empty cells. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorDownBlock(bool expandSelection); /** Moves the grid cursor left by one column. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorLeft(bool expandSelection); /** Moves the grid cursor left in the current row such that it skips to the beginning or end of a block of non-empty cells. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorLeftBlock(bool expandSelection); /** Moves the grid cursor right by one column. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorRight(bool expandSelection); /** Moves the grid cursor right in the current row such that it skips to the beginning or end of a block of non-empty cells. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorRightBlock(bool expandSelection); /** Moves the grid cursor up by one row. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorUp(bool expandSelection); /** Moves the grid cursor up in the current column such that it skips to the beginning or end of a block of non-empty cells. If a block of cells was previously selected it will expand if the argument is @true or be cleared if the argument is @false. */ bool MoveCursorUpBlock(bool expandSelection); /** Moves the grid cursor down by some number of rows so that the previous bottom visible row becomes the top visible row. */ bool MovePageDown(); /** Moves the grid cursor up by some number of rows so that the previous top visible row becomes the bottom visible row. */ bool MovePageUp(); /** Set the grid cursor to the specified cell. The grid cursor indicates the current cell and can be moved by the user using the arrow keys or the mouse. Calling this function generates a @c wxEVT_GRID_SELECT_CELL event and if the event handler vetoes this event, the cursor is not moved. This function doesn't make the target call visible, use GoToCell() to do this. */ void SetGridCursor(int row, int col); /** Set the grid cursor to the specified cell. The grid cursor indicates the current cell and can be moved by the user using the arrow keys or the mouse. Calling this function generates a @c wxEVT_GRID_SELECT_CELL event and if the event handler vetoes this event, the cursor is not moved. This function doesn't make the target call visible, use GoToCell() to do this. */ void SetGridCursor(const wxGridCellCoords& coords); /** Set the grid's behaviour when the user presses the TAB key. Pressing the TAB key moves the grid cursor right in the current row, if there is a cell at the right and, similarly, Shift-TAB moves the cursor to the left in the current row if it's not in the first column. What happens if the cursor can't be moved because it it's already at the beginning or end of the row can be configured using this function, see wxGrid::TabBehaviour documentation for the detailed description. IF none of the standard behaviours is appropriate, you can always handle @c wxEVT_GRID_TABBING event directly to implement a custom TAB-handling logic. @since 2.9.5 */ void SetTabBehaviour(TabBehaviour behaviour); //@} /** @name User Selection */ //@{ /** Deselects all cells that are currently selected. */ void ClearSelection(); /** Deselects a row of cells. */ void DeselectRow( int row ); /** Deselects a column of cells. */ void DeselectCol( int col ); /** Deselects a cell. */ void DeselectCell( int row, int col ); /** Returns a range of grid selection blocks. The returned range can be iterated over, e.g. with C++11 range-for loop: @code for ( const auto block: grid->GetSelectedBlocks() ) { if ( block.Intersects(myBlock) ) break; } @endcode Notice that the blocks returned by this method are not ordered in any particular way and may overlap. For grids using rows or columns-only selection modes, GetSelectedRowBlocks() or GetSelectedColBlocks() can be more convenient, as they return ordered and non-overlapping blocks. @since 3.1.4 */ wxGridBlocks GetSelectedBlocks() const; /** Returns an ordered range of non-overlapping selected rows. For the grids using wxGridSelectRows selection mode, returns the possibly empty vector containing the coordinates of non-overlapping selected row blocks in the natural order, i.e. from smallest to the biggest row indices. To see the difference between this method and GetSelectedBlocks(), consider the case when the user selects rows 2..4 in the grid and then also selects (using Ctrl/Shift keys) the rows 1..3. Iterating over the result of GetSelectedBlocks() would yield two blocks directly corresponding to the users selection, while this method returns a vector with a single element corresponding to the rows 1..4. This method returns empty vector for the other selection modes. @see GetSelectedBlocks(), GetSelectedColBlocks() @since 3.1.4 */ wxGridBlockCoordsVector GetSelectedRowBlocks() const; /** Returns an ordered range of non-overlapping selected columns. This method is symmetric to GetSelectedRowBlocks(), but is useful only in wxGridSelectColumns selection mode. @see GetSelectedBlocks() @since 3.1.4 */ wxGridBlockCoordsVector GetSelectedColBlocks() const; /** Returns an array of individually selected cells. Notice that this array does @em not contain all the selected cells in general as it doesn't include the cells selected as part of column, row or block selection. You must use this method, GetSelectedCols(), GetSelectedRows() and GetSelectionBlockTopLeft() and GetSelectionBlockBottomRight() methods to obtain the entire selection in general. Please notice this behaviour is by design and is needed in order to support grids of arbitrary size (when an entire column is selected in a grid with a million of columns, we don't want to create an array with a million of entries in this function, instead it returns an empty array and GetSelectedCols() returns an array containing one element). The function can be slow for the big grids, use GetSelectedBlocks() in the new code. */ wxGridCellCoordsArray GetSelectedCells() const; /** Returns an array of selected columns. Please notice that this method alone is not sufficient to find all the selected columns as it contains only the columns which were individually selected but not those being part of the block selection or being selected in virtue of all of their cells being selected individually, please see GetSelectedCells() for more details. The function can be slow for the big grids, use GetSelectedBlocks() in the new code. */ wxArrayInt GetSelectedCols() const; /** Returns an array of selected rows. Please notice that this method alone is not sufficient to find all the selected rows as it contains only the rows which were individually selected but not those being part of the block selection or being selected in virtue of all of their cells being selected individually, please see GetSelectedCells() for more details. The function can be slow for the big grids, use GetSelectedBlocks() in the new code. */ wxArrayInt GetSelectedRows() const; /** Returns the colour used for drawing the selection background. */ wxColour GetSelectionBackground() const; /** Returns an array of the bottom right corners of blocks of selected cells. Please see GetSelectedCells() for more information about the selection representation in wxGrid. The function can be slow for the big grids, use GetSelectedBlocks() in the new code. @see GetSelectionBlockTopLeft() */ wxGridCellCoordsArray GetSelectionBlockBottomRight() const; /** Returns an array of the top left corners of blocks of selected cells. Please see GetSelectedCells() for more information about the selection representation in wxGrid. The function can be slow for the big grids, use GetSelectedBlocks() in the new code. @see GetSelectionBlockBottomRight() */ wxGridCellCoordsArray GetSelectionBlockTopLeft() const; /** Returns the colour used for drawing the selection foreground. */ wxColour GetSelectionForeground() const; /** Returns the current selection mode. @see SetSelectionMode(). */ wxGridSelectionModes GetSelectionMode() const; /** Returns @true if the given cell is selected. */ bool IsInSelection(int row, int col) const; /** Returns @true if the given cell is selected. */ bool IsInSelection(const wxGridCellCoords& coords) const; /** Returns @true if there are currently any selected cells, rows, columns or blocks. */ bool IsSelection() const; /** Selects all cells in the grid. */ void SelectAll(); /** Selects a rectangular block of cells. If @a addToSelected is @false then any existing selection will be deselected; if @true the column will be added to the existing selection. */ void SelectBlock(int topRow, int leftCol, int bottomRow, int rightCol, bool addToSelected = false); /** Selects a rectangular block of cells. If @a addToSelected is @false then any existing selection will be deselected; if @true the column will be added to the existing selection. */ void SelectBlock(const wxGridCellCoords& topLeft, const wxGridCellCoords& bottomRight, bool addToSelected = false); /** Selects the specified column. If @a addToSelected is @false then any existing selection will be deselected; if @true the column will be added to the existing selection. This method won't select anything if the current selection mode is wxGridSelectRows. */ void SelectCol(int col, bool addToSelected = false); /** Selects the specified row. If @a addToSelected is @false then any existing selection will be deselected; if @true the row will be added to the existing selection. This method won't select anything if the current selection mode is wxGridSelectColumns. */ void SelectRow(int row, bool addToSelected = false); /** Set the colour to be used for drawing the selection background. */ void SetSelectionBackground(const wxColour& c); /** Set the colour to be used for drawing the selection foreground. */ void SetSelectionForeground(const wxColour& c); /** Set the selection behaviour of the grid. The existing selection is converted to conform to the new mode if possible and discarded otherwise (e.g. any individual selected cells are deselected if the new mode allows only the selection of the entire rows or columns). */ void SetSelectionMode(wxGridSelectionModes selmode); //@} /** @name Scrolling */ //@{ /** Returns the number of pixels per horizontal scroll increment. The default is 15. @see GetScrollLineY(), SetScrollLineX(), SetScrollLineY() */ int GetScrollLineX() const; /** Returns the number of pixels per vertical scroll increment. The default is 15. @see GetScrollLineX(), SetScrollLineX(), SetScrollLineY() */ int GetScrollLineY() const; /** Returns @true if a cell is either entirely or at least partially visible in the grid window. By default, the cell must be entirely visible for this function to return @true but if @a wholeCellVisible is @false, the function returns @true even if the cell is only partially visible. */ bool IsVisible(int row, int col, bool wholeCellVisible = true) const; /** Returns @true if a cell is either entirely or at least partially visible in the grid window. By default, the cell must be entirely visible for this function to return @true but if @a wholeCellVisible is @false, the function returns @true even if the cell is only partially visible. */ bool IsVisible(const wxGridCellCoords& coords, bool wholeCellVisible = true) const; /** Brings the specified cell into the visible grid cell area with minimal scrolling. Does nothing if the cell is already visible. */ void MakeCellVisible(int row, int col); /** Brings the specified cell into the visible grid cell area with minimal scrolling. Does nothing if the cell is already visible. */ void MakeCellVisible(const wxGridCellCoords& coords); /** Returns the topmost row of the current visible area. Returns -1 if the grid doesn't have any rows. */ int GetFirstFullyVisibleRow() const; /** Returns the leftmost column of the current visible area. Returns -1 if the grid doesn't have any columns. */ int GetFirstFullyVisibleColumn() const; /** Sets the number of pixels per horizontal scroll increment. The default is 15. @see GetScrollLineX(), GetScrollLineY(), SetScrollLineY() */ void SetScrollLineX(int x); /** Sets the number of pixels per vertical scroll increment. The default is 15. @see GetScrollLineX(), GetScrollLineY(), SetScrollLineX() */ void SetScrollLineY(int y); //@} /** @name Cell and Device Coordinate Translation */ //@{ /** Convert grid cell coordinates to grid window pixel coordinates. This function returns the rectangle that encloses the block of cells limited by @a topLeft and @a bottomRight cell in device coords and clipped to the client size of the grid window. @since 3.1.3 Parameter @a gridWindow has been added. @see CellToRect() */ wxRect BlockToDeviceRect(const wxGridCellCoords& topLeft, const wxGridCellCoords& bottomRight, const wxGridWindow *gridWindow = NULL) const; /** Return the rectangle corresponding to the grid cell's size and position in logical coordinates. @see BlockToDeviceRect() */ wxRect CellToRect(int row, int col) const; /** Return the rectangle corresponding to the grid cell's size and position in logical coordinates. @see BlockToDeviceRect() */ wxRect CellToRect(const wxGridCellCoords& coords) const; /** Returns the grid window that contains the cell. In a grid without frozen rows or columns (see FreezeTo()), this will always return the same window as GetGridWindow(), however if some parts of the grid are frozen, this function returns the window containing the given cell. @since 3.1.3 */ wxGridWindow* CellToGridWindow( int row, int col ) const; /// @overload wxGridWindow* CellToGridWindow( const wxGridCellCoords& coords ) const; /** Returns the grid window that includes the input coordinates. @since 3.1.3 */ wxGridWindow* DevicePosToGridWindow(wxPoint pos) const; /// @overload wxGridWindow* DevicePosToGridWindow(int x, int y) const; /** Returns the grid window's offset from the grid starting position taking into account the frozen cells. If there are no frozen cells, returns (0, 0). @since 3.1.3 @see FreezeTo() */ void GetGridWindowOffset(const wxGridWindow *gridWindow, int &x, int &y) const; /// @overload wxPoint GetGridWindowOffset(const wxGridWindow *gridWindow) const; /** Translates the device coordinates to the logical ones, taking into account the grid window type. @since 3.1.3 @see wxScrolled::CalcUnscrolledPosition() */ void CalcGridWindowUnscrolledPosition(int x, int y, int *xx, int *yy, const wxGridWindow *gridWindow) const; /// @overload wxPoint CalcGridWindowUnscrolledPosition(const wxPoint& pt, const wxGridWindow *gridWindow) const; /** Translates the logical coordinates to the device ones, taking into account the grid window type. @since 3.1.3 @see wxScrolled::CalcScrolledPosition() */ void CalcGridWindowScrolledPosition(int x, int y, int *xx, int *yy, const wxGridWindow *gridWindow) const; /// @overload wxPoint CalcGridWindowScrolledPosition(const wxPoint& pt, const wxGridWindow *gridWindow) const; /** Returns the column at the given pixel position depending on the window. @param x The x position to evaluate. @param clipToMinMax If @true, rather than returning @c wxNOT_FOUND, it returns either the first or last column depending on whether @a x is too far to the left or right respectively. @param gridWindow The associated grid window that limits the search (note that this parameter is only available since wxWidgets 3.1.3). If @a gridWindow is @NULL, it will consider all the cells, no matter which grid they belong to. @return The column index or @c wxNOT_FOUND. */ int XToCol(int x, bool clipToMinMax = false, wxGridWindow *gridWindow = NULL) const; /** Returns the column whose right hand edge is close to the given logical @a x position. If no column edge is near to this position @c wxNOT_FOUND is returned. */ int XToEdgeOfCol(int x) const; /** Translates logical pixel coordinates to the grid cell coordinates. Notice that this function expects logical coordinates on input so if you use this function in a mouse event handler you need to translate the mouse position, which is expressed in device coordinates, to logical ones. The parameter @a gridWindow is new since wxWidgets 3.1.3. If it is specified, i.e. non-@NULL, the coordinates must be in this window coordinate system and only the cells of this window are considered, i.e. the function returns @c wxNOT_FOUND if the coordinates are out of bounds. If @a gridWindow is @NULL, coordinates are relative to the main grid window and all cells are considered. @see XToCol(), YToRow() */ wxGridCellCoords XYToCell(int x, int y, wxGridWindow *gridWindow = NULL) const; /// @overload wxGridCellCoords XYToCell(const wxPoint& pos, wxGridWindow *gridWindow = NULL) const; // XYToCell(int, int, wxGridCellCoords&) overload is intentionally // undocumented, using it is ugly and non-const reference parameters are // not used in wxWidgets API /** Returns the row whose bottom edge is close to the given logical @a y position. If no row edge is near to this position @c wxNOT_FOUND is returned. */ int YToEdgeOfRow(int y) const; /** Returns the grid row that corresponds to the logical @a y coordinate. The parameter @a gridWindow is new since wxWidgets 3.1.3. If it is specified, i.e. non-@NULL, only the cells of this window are considered, i.e. the function returns @c wxNOT_FOUND if @a y is out of bounds. If @a gridWindow is @NULL, the function returns @c wxNOT_FOUND only if there is no row at all at the @a y position. */ int YToRow(int y, bool clipToMinMax = false, wxGridWindow *gridWindow = NULL) const; //@} /** @name Miscellaneous Functions */ //@{ /** Appends one or more new columns to the right of the grid. The @a updateLabels argument is not used at present. If you are using a derived grid table class you will need to override wxGridTableBase::AppendCols(). See InsertCols() for further information. @return @true on success or @false if appending columns failed. */ bool AppendCols(int numCols = 1, bool updateLabels = true); /** Appends one or more new rows to the bottom of the grid. The @a updateLabels argument is not used at present. If you are using a derived grid table class you will need to override wxGridTableBase::AppendRows(). See InsertRows() for further information. @return @true on success or @false if appending rows failed. */ bool AppendRows(int numRows = 1, bool updateLabels = true); /** Return @true if the horizontal grid lines stop at the last column boundary or @false if they continue to the end of the window. The default is to clip grid lines. @see ClipHorzGridLines(), AreVertGridLinesClipped() */ bool AreHorzGridLinesClipped() const; /** Return @true if the vertical grid lines stop at the last row boundary or @false if they continue to the end of the window. The default is to clip grid lines. @see ClipVertGridLines(), AreHorzGridLinesClipped() */ bool AreVertGridLinesClipped() const; /** Increments the grid's batch count. When the count is greater than zero repainting of the grid is suppressed. Each call to BeginBatch must be matched by a later call to EndBatch(). Code that does a lot of grid modification can be enclosed between BeginBatch() and EndBatch() calls to avoid screen flicker. The final EndBatch() call will cause the grid to be repainted. Notice that you should use wxGridUpdateLocker which ensures that there is always a matching EndBatch() call for this BeginBatch() if possible instead of calling this method directly. */ void BeginBatch(); /** Clears all data in the underlying grid table and repaints the grid. The table is not deleted by this function. If you are using a derived table class then you need to override wxGridTableBase::Clear() for this function to have any effect. */ void ClearGrid(); /** Change whether the horizontal grid lines are clipped by the end of the last column. By default the grid lines are not drawn beyond the end of the last column but after calling this function with @a clip set to @false they will be drawn across the entire grid window. @see AreHorzGridLinesClipped(), ClipVertGridLines() */ void ClipHorzGridLines(bool clip); /** Change whether the vertical grid lines are clipped by the end of the last row. By default the grid lines are not drawn beyond the end of the last row but after calling this function with @a clip set to @false they will be drawn across the entire grid window. @see AreVertGridLinesClipped(), ClipHorzGridLines() */ void ClipVertGridLines(bool clip); /** Deletes one or more columns from a grid starting at the specified position. The @a updateLabels argument is not used at present. If you are using a derived grid table class you will need to override wxGridTableBase::DeleteCols(). See InsertCols() for further information. @return @true on success or @false if deleting columns failed. */ bool DeleteCols(int pos = 0, int numCols = 1, bool updateLabels = true); /** Deletes one or more rows from a grid starting at the specified position. The @a updateLabels argument is not used at present. If you are using a derived grid table class you will need to override wxGridTableBase::DeleteRows(). See InsertRows() for further information. @return @true on success or @false if deleting rows failed. */ bool DeleteRows(int pos = 0, int numRows = 1, bool updateLabels = true); /** Sets or resets the frozen columns and rows. @param row The number of rows to freeze, 0 means to unfreeze all rows. @param col The number of columns to freeze, 0 means to unfreeze all columns. @return @true on success or @false if it failed. Note that this method doesn't do anything, and returns @false, if any of the following conditions are true: - Either @a row or @a col are out of range - Size of the frozen area would be bigger than the current viewing area - There are any merged cells in the area to be frozen - Grid uses a native header control (see UseNativeColHeader()) (some of these limitations could be lifted in the future). @since 3.1.3 */ bool FreezeTo(unsigned row, unsigned col); /// @overload bool FreezeTo(const wxGridCellCoords& coords); /** Decrements the grid's batch count. When the count is greater than zero repainting of the grid is suppressed. Each previous call to BeginBatch() must be matched by a later call to EndBatch(). Code that does a lot of grid modification can be enclosed between BeginBatch() and EndBatch() calls to avoid screen flicker. The final EndBatch() will cause the grid to be repainted. @see wxGridUpdateLocker */ void EndBatch(); /** Overridden wxWindow method. */ virtual void Fit(); /** Causes immediate repainting of the grid. Use this instead of the usual wxWindow::Refresh(). */ void ForceRefresh(); /** Returns the number of times that BeginBatch() has been called without (yet) matching calls to EndBatch(). While the grid's batch count is greater than zero the display will not be updated. */ int GetBatchCount() const; /** Returns the total number of grid columns. This is the same as the number of columns in the underlying grid table. */ int GetNumberCols() const; /** Returns the total number of grid rows. This is the same as the number of rows in the underlying grid table. */ int GetNumberRows() const; /** Returns the number of frozen grid columns. If there are no frozen columns, returns 0. @since 3.1.3 @see FreezeTo() */ int GetNumberFrozenCols() const; /** Returns the number of frozen grid rows. If there are no frozen rows, returns 0. @since 3.1.3 @see FreezeTo() */ int GetNumberFrozenRows() const; /** Returns the attribute for the given cell creating one if necessary. If the cell already has an attribute, it is returned. Otherwise a new attribute is created, associated with the cell and returned. In any case the caller must call DecRef() on the returned pointer. Prefer to use GetOrCreateCellAttrPtr() to avoid the need to call DecRef() on the returned pointer. This function may only be called if CanHaveAttributes() returns @true. */ wxGridCellAttr *GetOrCreateCellAttr(int row, int col) const; /** Returns the attribute for the given cell creating one if necessary. This method is identical to GetOrCreateCellAttr(), but returns a smart pointer, which frees the caller from the need to call DecRef() manually. @since 3.1.4 */ wxGridCellAttrPtr GetOrCreateCellAttrPtr(int row, int col) const; /** Returns a base pointer to the current table object. The returned pointer is still owned by the grid. */ wxGridTableBase *GetTable() const; /** Inserts one or more new columns into a grid with the first new column at the specified position. Notice that inserting the columns in the grid requires grid table cooperation: when this method is called, grid object begins by requesting the underlying grid table to insert new columns. If this is successful the table notifies the grid and the grid updates the display. For a default grid (one where you have called CreateGrid()) this process is automatic. If you are using a custom grid table (specified with SetTable() or AssignTable()) then you must override wxGridTableBase::InsertCols() in your derived table class. @param pos The position which the first newly inserted column will have. @param numCols The number of columns to insert. @param updateLabels Currently not used. @return @true if the columns were successfully inserted, @false if an error occurred (most likely the table couldn't be updated). */ bool InsertCols(int pos = 0, int numCols = 1, bool updateLabels = true); /** Inserts one or more new rows into a grid with the first new row at the specified position. Notice that you must implement wxGridTableBase::InsertRows() if you use a grid with a custom table, please see InsertCols() for more information. @param pos The position which the first newly inserted row will have. @param numRows The number of rows to insert. @param updateLabels Currently not used. @return @true if the rows were successfully inserted, @false if an error occurred (most likely the table couldn't be updated). */ bool InsertRows(int pos = 0, int numRows = 1, bool updateLabels = true); /** Invalidates the cached attribute for the given cell. For efficiency reasons, wxGrid may cache the recently used attributes (currently it caches only the single most recently used one, in fact) which can result in the cell appearance not being refreshed even when the attribute returned by your custom wxGridCellAttrProvider-derived class has changed. To force the grid to refresh the cell attribute, this function may be used. Notice that calling it will not result in actually redrawing the cell, you still need to call wxWindow::RefreshRect() to invalidate the area occupied by the cell in the window to do this. Also note that you don't need to call this function if you store the attributes in wxGrid itself, i.e. use its SetAttr() and similar methods, it is only useful when using a separate custom attributes provider. @param row The row of the cell whose attribute needs to be queried again. @param col The column of the cell whose attribute needs to be queried again. @since 2.9.2 */ void RefreshAttr(int row, int col); /** Draws part or all of a wxGrid on a wxDC for printing or display. Pagination can be accomplished by using sequential Render() calls with appropriate values in wxGridCellCoords topLeft and bottomRight. @param dc The wxDC to be drawn on. @param pos The position on the wxDC where rendering should begin. If not specified drawing will begin at the wxDC MaxX() and MaxY(). @param size The size of the area on the wxDC that the rendered wxGrid should occupy. If not specified the drawing will be scaled to fit the available dc width or height. The wxGrid's aspect ratio is maintained whether or not size is specified. @param topLeft The top left cell of the block to be drawn. Defaults to ( 0, 0 ). @param bottomRight The bottom right cell of the block to be drawn. Defaults to row and column counts. @param style A combination of values from wxGridRenderStyle. @since 2.9.4 */ void Render( wxDC& dc, const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxDefaultSize, const wxGridCellCoords& topLeft = wxGridCellCoords( -1, -1 ), const wxGridCellCoords& bottomRight = wxGridCellCoords( -1, -1 ), int style = wxGRID_DRAW_DEFAULT ); /** Sets the cell attributes for the specified cell. The grid takes ownership of the attribute pointer. See the wxGridCellAttr class for more information about controlling cell attributes. */ void SetAttr(int row, int col, wxGridCellAttr *attr); /** Sets the cell attributes for all cells in the specified column. For more information about controlling grid cell attributes see the wxGridCellAttr cell attribute class and the @ref overview_grid. */ void SetColAttr(int col, wxGridCellAttr* attr); /** Sets the extra margins used around the grid area. A grid may occupy more space than needed for its data display and this function allows setting how big this extra space is */ void SetMargins(int extraWidth, int extraHeight); /** Sets the cell attributes for all cells in the specified row. The grid takes ownership of the attribute pointer. See the wxGridCellAttr class for more information about controlling cell attributes. */ void SetRowAttr(int row, wxGridCellAttr* attr); wxArrayInt CalcRowLabelsExposed( const wxRegion& reg, wxGridWindow *gridWindow = NULL) const; wxArrayInt CalcColLabelsExposed( const wxRegion& reg, wxGridWindow *gridWindow = NULL) const; wxGridCellCoordsArray CalcCellsExposed( const wxRegion& reg, wxGridWindow *gridWindow = NULL) const; //@} /** @name Sorting support. wxGrid doesn't provide any support for sorting the data but it does generate events allowing the user code to sort it and supports displaying the sort indicator in the column used for sorting. To use wxGrid sorting support you need to handle wxEVT_GRID_COL_SORT event (and not veto it) and resort the data displayed in the grid. The grid will automatically update the sorting indicator on the column which was clicked. You can also call the functions in this section directly to update the sorting indicator. Once again, they don't do anything with the grid data, it remains your responsibility to actually sort it appropriately. */ //@{ /** Return the column in which the sorting indicator is currently displayed. Returns @c wxNOT_FOUND if sorting indicator is not currently displayed at all. @see SetSortingColumn() */ int GetSortingColumn() const; /** Return @true if this column is currently used for sorting. @see GetSortingColumn() */ bool IsSortingBy(int col) const; /** Return @true if the current sorting order is ascending or @false if it is descending. It only makes sense to call this function if GetSortingColumn() returns a valid column index and not @c wxNOT_FOUND. @see SetSortingColumn() */ bool IsSortOrderAscending() const; /** Set the column to display the sorting indicator in and its direction. @param col The column to display the sorting indicator in or @c wxNOT_FOUND to remove any currently displayed sorting indicator. @param ascending If @true, display the ascending sort indicator, otherwise display the descending sort indicator. @see GetSortingColumn(), IsSortOrderAscending() */ void SetSortingColumn(int col, bool ascending = true); /** Remove any currently shown sorting indicator. This is equivalent to calling SetSortingColumn() with @c wxNOT_FOUND first argument. */ void UnsetSortingColumn(); //@} /** @name Accessors for component windows. Return the various child windows of wxGrid. wxGrid is an empty parent window for at least 4 children representing the column labels window (top), the row labels window (left), the corner window (top left) and the main grid window. It may be necessary to use these individual windows and not the wxGrid window itself if you need to handle events for them (using wxEvtHandler::Bind()) or do something else requiring the use of the correct window pointer. Notice that you should not, however, change these windows (e.g. reposition them or draw over them) because they are managed by wxGrid itself. When parts of the grid are frozen using FreezeTo() function, the main grid window contains only the unfrozen part and additional windows are used for the parts containing frozen rows and/or columns and the corner window if both some rows and some columns are frozen. */ //@{ /** Return the main grid window containing the grid cells. This window is always shown. */ wxWindow *GetGridWindow() const; /** Return the corner grid window containing frozen cells. This window is shown only when there are frozen rows and columns. @since 3.1.3 */ wxWindow* GetFrozenCornerGridWindow() const; /** Return the rows grid window containing row frozen cells. This window is shown only when there are frozen rows. @since 3.1.3 */ wxWindow* GetFrozenRowGridWindow() const; /** Return the columns grid window containing column frozen cells. This window is shown only when there are frozen columns. @since 3.1.3 */ wxWindow* GetFrozenColGridWindow() const; /** Return the row labels window. This window is not shown if the row labels were hidden using HideRowLabels(). */ wxWindow *GetGridRowLabelWindow() const; /** Return the column labels window. This window is not shown if the columns labels were hidden using HideColLabels(). Depending on whether UseNativeColHeader() was called or not this can be either a wxHeaderCtrl or a plain wxWindow. This function returns a valid window pointer in either case but in the former case you can also use GetGridColHeader() to access it if you need wxHeaderCtrl-specific functionality. */ wxWindow *GetGridColLabelWindow() const; /** Return the window in the top left grid corner. This window is shown only of both columns and row labels are shown and normally doesn't contain anything. Clicking on it is handled by wxGrid however and can be used to select the entire grid. */ wxWindow *GetGridCornerLabelWindow() const; /** Return the header control used for column labels display. This function can only be called if UseNativeColHeader() had been called. @see IsUsingNativeHeader() */ wxHeaderCtrl *GetGridColHeader() const; /** Return true if native header control is currently being used. @since 3.1.4 */ bool IsUsingNativeHeader() const; //@} virtual void DrawCellHighlight( wxDC& dc, const wxGridCellAttr *attr ); virtual void DrawRowLabels( wxDC& dc, const wxArrayInt& rows ); virtual void DrawRowLabel( wxDC& dc, int row ); virtual void DrawColLabels( wxDC& dc, const wxArrayInt& cols ); virtual void DrawColLabel( wxDC& dc, int col ); virtual void DrawCornerLabel(wxDC& dc); void DrawTextRectangle( wxDC& dc, const wxString& text, const wxRect& rect, int horizontalAlignment = wxALIGN_LEFT, int verticalAlignment = wxALIGN_TOP, int textOrientation = wxHORIZONTAL ) const; void DrawTextRectangle( wxDC& dc, const wxArrayString& lines, const wxRect& rect, int horizontalAlignment = wxALIGN_LEFT, int verticalAlignment = wxALIGN_TOP, int textOrientation = wxHORIZONTAL ) const; wxColour GetCellHighlightColour() const; int GetCellHighlightPenWidth() const; int GetCellHighlightROPenWidth() const; void SetCellHighlightColour( const wxColour& ); void SetCellHighlightPenWidth(int width); void SetCellHighlightROPenWidth(int width); void SetGridFrozenBorderColour( const wxColour& ); void SetGridFrozenBorderPenWidth( int width ); protected: /** Returns @true if this grid has support for cell attributes. The grid supports attributes if it has the associated table which, in turn, has attributes support, i.e. wxGridTableBase::CanHaveAttributes() returns @true. */ bool CanHaveAttributes() const; /** Get the minimal width of the given column/row. The value returned by this function may be different from that returned by GetColMinimalAcceptableWidth() if SetColMinimalWidth() had been called for this column. */ int GetColMinimalWidth(int col) const; /** Returns the coordinate of the right border specified column. */ int GetColRight(int col) const; /** Returns the coordinate of the left border specified column. */ int GetColLeft(int col) const; /** Returns the minimal size for the given column. The value returned by this function may be different from that returned by GetRowMinimalAcceptableHeight() if SetRowMinimalHeight() had been called for this row. */ int GetRowMinimalHeight(int col) const; }; /** @class wxGridUpdateLocker This small class can be used to prevent wxGrid from redrawing during its lifetime by calling wxGrid::BeginBatch() in its constructor and wxGrid::EndBatch() in its destructor. It is typically used in a function performing several operations with a grid which would otherwise result in flicker. For example: @code void MyFrame::Foo() { m_grid = new wxGrid(this, ...); wxGridUpdateLocker noUpdates(m_grid); m_grid-AppendColumn(); // ... many other operations with m_grid ... m_grid-AppendRow(); // destructor called, grid refreshed } @endcode Using this class is easier and safer than calling wxGrid::BeginBatch() and wxGrid::EndBatch() because you don't risk missing the call the latter (due to an exception for example). @library{wxcore} @category{grid} */ class wxGridUpdateLocker { public: /** Creates an object preventing the updates of the specified @a grid. The parameter could be @NULL in which case nothing is done. If @a grid is non-@NULL then the grid must exist for longer than this wxGridUpdateLocker object itself. The default constructor could be followed by a call to Create() to set the grid object later. */ wxGridUpdateLocker(wxGrid* grid = NULL); /** Destructor reenables updates for the grid this object is associated with. */ ~wxGridUpdateLocker(); /** This method can be called if the object had been constructed using the default constructor. It must not be called more than once. */ void Create(wxGrid* grid); }; /** @class wxGridEvent This event class contains information about various grid events. Notice that all grid event table macros are available in two versions: @c EVT_GRID_XXX and @c EVT_GRID_CMD_XXX. The only difference between the two is that the former doesn't allow to specify the grid window identifier and so takes a single parameter, the event handler, but is not suitable if there is more than one grid control in the window where the event table is used (as it would catch the events from all the grids). The version with @c CMD takes the id as first argument and the event handler as the second one and so can be used with multiple grids as well. Otherwise there are no difference between the two and only the versions without the id are documented below for brevity. @beginEventTable{wxGridEvent} @event{EVT_GRID_CELL_CHANGING(func)} The user is about to change the data in a cell. The new cell value as string is available from GetString() event object method. This event can be vetoed if the change is not allowed. Processes a @c wxEVT_GRID_CELL_CHANGING event type. @event{EVT_GRID_CELL_CHANGED(func)} The user changed the data in a cell. The old cell value as string is available from GetString() event object method. Notice that vetoing this event still works for backwards compatibility reasons but any new code should only veto EVT_GRID_CELL_CHANGING event and not this one. Processes a @c wxEVT_GRID_CELL_CHANGED event type. @event{EVT_GRID_CELL_LEFT_CLICK(func)} The user clicked a cell with the left mouse button. Processes a @c wxEVT_GRID_CELL_LEFT_CLICK event type. @event{EVT_GRID_CELL_LEFT_DCLICK(func)} The user double-clicked a cell with the left mouse button. Processes a @c wxEVT_GRID_CELL_LEFT_DCLICK event type. @event{EVT_GRID_CELL_RIGHT_CLICK(func)} The user clicked a cell with the right mouse button. Processes a @c wxEVT_GRID_CELL_RIGHT_CLICK event type. @event{EVT_GRID_CELL_RIGHT_DCLICK(func)} The user double-clicked a cell with the right mouse button. Processes a @c wxEVT_GRID_CELL_RIGHT_DCLICK event type. @event{EVT_GRID_EDITOR_HIDDEN(func)} The editor for a cell was hidden. Processes a @c wxEVT_GRID_EDITOR_HIDDEN event type. @event{EVT_GRID_EDITOR_SHOWN(func)} The editor for a cell was shown. Processes a @c wxEVT_GRID_EDITOR_SHOWN event type. @event{EVT_GRID_LABEL_LEFT_CLICK(func)} The user clicked a label with the left mouse button. Processes a @c wxEVT_GRID_LABEL_LEFT_CLICK event type. @event{EVT_GRID_LABEL_LEFT_DCLICK(func)} The user double-clicked a label with the left mouse button. Processes a @c wxEVT_GRID_LABEL_LEFT_DCLICK event type. @event{EVT_GRID_LABEL_RIGHT_CLICK(func)} The user clicked a label with the right mouse button. Processes a @c wxEVT_GRID_LABEL_RIGHT_CLICK event type. @event{EVT_GRID_LABEL_RIGHT_DCLICK(func)} The user double-clicked a label with the right mouse button. Processes a @c wxEVT_GRID_LABEL_RIGHT_DCLICK event type. @event{EVT_GRID_SELECT_CELL(func)} The given cell was made current, either by user or by the program via a call to SetGridCursor() or GoToCell(). Processes a @c wxEVT_GRID_SELECT_CELL event type. @event{EVT_GRID_COL_MOVE(func)} The user tries to change the order of the columns in the grid by dragging the column specified by GetCol(). This event can be vetoed to either prevent the user from reordering the column change completely (but notice that if you don't want to allow it at all, you simply shouldn't call wxGrid::EnableDragColMove() in the first place), vetoed but handled in some way in the handler, e.g. by really moving the column to the new position at the associated table level, or allowed to proceed in which case wxGrid::SetColPos() is used to reorder the columns display order without affecting the use of the column indices otherwise. This event macro corresponds to @c wxEVT_GRID_COL_MOVE event type. @event{EVT_GRID_COL_SORT(func)} This event is generated when a column is clicked by the user and its name is explained by the fact that the custom reaction to a click on a column is to sort the grid contents by this column. However the grid itself has no special support for sorting and it's up to the handler of this event to update the associated table. But if the event is handled (and not vetoed) the grid supposes that the table was indeed resorted and updates the column to indicate the new sort order and refreshes itself. This event macro corresponds to @c wxEVT_GRID_COL_SORT event type. @event{EVT_GRID_TABBING(func)} This event is generated when the user presses TAB or Shift-TAB in the grid. It can be used to customize the simple default TAB handling logic, e.g. to go to the next non-empty cell instead of just the next cell. See also wxGrid::SetTabBehaviour(). This event is new since wxWidgets 2.9.5. @endEventTable @library{wxcore} @category{grid,events} */ class wxGridEvent : public wxNotifyEvent { public: /** Default constructor. */ wxGridEvent(); /** Constructor for initializing all event attributes. */ wxGridEvent(int id, wxEventType type, wxObject* obj, int row = -1, int col = -1, int x = -1, int y = -1, bool sel = true, const wxKeyboardState& kbd = wxKeyboardState()); /** Returns @true if the Alt key was down at the time of the event. */ bool AltDown() const; /** Returns @true if the Control key was down at the time of the event. */ bool ControlDown() const; /** Column at which the event occurred. Notice that for a @c wxEVT_GRID_SELECT_CELL event this column is the column of the newly selected cell while the previously selected cell can be retrieved using wxGrid::GetGridCursorCol(). */ virtual int GetCol(); /** Position in pixels at which the event occurred. */ wxPoint GetPosition(); /** Row at which the event occurred. Notice that for a @c wxEVT_GRID_SELECT_CELL event this row is the row of the newly selected cell while the previously selected cell can be retrieved using wxGrid::GetGridCursorRow(). */ virtual int GetRow(); /** Returns @true if the Meta key was down at the time of the event. */ bool MetaDown() const; /** Returns @true if the user is selecting grid cells, or @false if deselecting. */ bool Selecting(); /** Returns @true if the Shift key was down at the time of the event. */ bool ShiftDown() const; }; /** @class wxGridSizeEvent This event class contains information about a row/column resize event. @beginEventTable{wxGridSizeEvent} @event{EVT_GRID_CMD_COL_SIZE(id, func)} The user resized a column, corresponds to @c wxEVT_GRID_COL_SIZE event type. @event{EVT_GRID_CMD_ROW_SIZE(id, func)} The user resized a row, corresponds to @c wxEVT_GRID_ROW_SIZE event type. @event{EVT_GRID_COL_SIZE(func)} Same as EVT_GRID_CMD_COL_SIZE() but uses `wxID_ANY` id. @event{EVT_GRID_COL_AUTO_SIZE(func)} This event is sent when a column must be resized to its best size, e.g. when the user double clicks the column divider. The default implementation simply resizes the column to fit the column label (but not its contents as this could be too slow for big grids). This macro corresponds to @c wxEVT_GRID_COL_AUTO_SIZE event type and is new since wxWidgets 2.9.5. @event{EVT_GRID_ROW_SIZE(func)} Same as EVT_GRID_CMD_ROW_SIZE() but uses `wxID_ANY` id. @endEventTable @library{wxcore} @category{grid,events} */ class wxGridSizeEvent : public wxNotifyEvent { public: /** Default constructor. */ wxGridSizeEvent(); /** Constructor for initializing all event attributes. */ wxGridSizeEvent(int id, wxEventType type, wxObject* obj, int rowOrCol = -1, int x = -1, int y = -1, const wxKeyboardState& kbd = wxKeyboardState()); /** Returns @true if the Alt key was down at the time of the event. */ bool AltDown() const; /** Returns @true if the Control key was down at the time of the event. */ bool ControlDown() const; /** Position in pixels at which the event occurred. */ wxPoint GetPosition(); /** Row or column at that was resized. */ int GetRowOrCol(); /** Returns @true if the Meta key was down at the time of the event. */ bool MetaDown() const; /** Returns @true if the Shift key was down at the time of the event. */ bool ShiftDown() const; }; /** @class wxGridRangeSelectEvent @beginEventTable{wxGridRangeSelectEvent} @event{EVT_GRID_RANGE_SELECT(func)} The user selected a group of contiguous cells. Processes a @c wxEVT_GRID_RANGE_SELECT event type. @event{EVT_GRID_CMD_RANGE_SELECT(id, func)} The user selected a group of contiguous cells; variant taking a window identifier. Processes a @c wxEVT_GRID_RANGE_SELECT event type. @endEventTable @library{wxcore} @category{grid,events} */ class wxGridRangeSelectEvent : public wxNotifyEvent { public: /** Default constructor. */ wxGridRangeSelectEvent(); /** Constructor for initializing all event attributes. */ wxGridRangeSelectEvent(int id, wxEventType type, wxObject* obj, const wxGridCellCoords& topLeft, const wxGridCellCoords& bottomRight, bool sel = true, const wxKeyboardState& kbd = wxKeyboardState()); /** Returns @true if the Alt key was down at the time of the event. */ bool AltDown() const; /** Returns @true if the Control key was down at the time of the event. */ bool ControlDown() const; /** Top left corner of the rectangular area that was (de)selected. */ wxGridCellCoords GetBottomRightCoords(); /** Bottom row of the rectangular area that was (de)selected. */ int GetBottomRow(); /** Left column of the rectangular area that was (de)selected. */ int GetLeftCol(); /** Right column of the rectangular area that was (de)selected. */ int GetRightCol(); /** Top left corner of the rectangular area that was (de)selected. */ wxGridCellCoords GetTopLeftCoords(); /** Top row of the rectangular area that was (de)selected. */ int GetTopRow(); /** Returns @true if the Meta key was down at the time of the event. */ bool MetaDown() const; /** Returns @true if the area was selected, @false otherwise. */ bool Selecting(); /** Returns @true if the Shift key was down at the time of the event. */ bool ShiftDown() const; }; /** @class wxGridEditorCreatedEvent @beginEventTable{wxGridEditorCreatedEvent} @event{EVT_GRID_EDITOR_CREATED(func)} The editor for a cell was created. Processes a @c wxEVT_GRID_EDITOR_CREATED event type. @event{EVT_GRID_CMD_EDITOR_CREATED(id, func)} The editor for a cell was created; variant taking a window identifier. Processes a @c wxEVT_GRID_EDITOR_CREATED event type. @endEventTable @library{wxcore} @category{grid,events} */ class wxGridEditorCreatedEvent : public wxCommandEvent { public: /** Default constructor. */ wxGridEditorCreatedEvent(); /** Constructor for initializing all event attributes. */ wxGridEditorCreatedEvent(int id, wxEventType type, wxObject* obj, int row, int col, wxControl* ctrl); /** Returns the column at which the event occurred. */ int GetCol(); /** Returns the edit control. This function is preserved for compatibility, but GetWindow() should be preferred in the new code as the associated window doesn't need to be of a wxControl-derived class. Note that if SetWindow() had been called with an object not deriving from wxControl, this method will return @NULL. */ wxControl* GetControl(); /** Returns the row at which the event occurred. */ int GetRow(); /** Returns the edit window. @since 3.1.3 */ wxWindow* GetWindow(); /** Sets the column at which the event occurred. */ void SetCol(int col); /** Sets the edit control. This function is preserved for compatibility, but SetWindow() should be preferred in the new code, see GetControl(). */ void SetControl(wxControl* ctrl); /** Sets the row at which the event occurred. */ void SetRow(int row); /** Sets the edit window. @since 3.1.3 */ void SetWindow(wxWindow* window); }; wxEventType wxEVT_GRID_CELL_LEFT_CLICK; wxEventType wxEVT_GRID_CELL_RIGHT_CLICK; wxEventType wxEVT_GRID_CELL_LEFT_DCLICK; wxEventType wxEVT_GRID_CELL_RIGHT_DCLICK; wxEventType wxEVT_GRID_LABEL_LEFT_CLICK; wxEventType wxEVT_GRID_LABEL_RIGHT_CLICK; wxEventType wxEVT_GRID_LABEL_LEFT_DCLICK; wxEventType wxEVT_GRID_LABEL_RIGHT_DCLICK; wxEventType wxEVT_GRID_ROW_SIZE; wxEventType wxEVT_GRID_COL_SIZE; wxEventType wxEVT_GRID_COL_AUTO_SIZE; wxEventType wxEVT_GRID_RANGE_SELECT; wxEventType wxEVT_GRID_CELL_CHANGING; wxEventType wxEVT_GRID_CELL_CHANGED; wxEventType wxEVT_GRID_SELECT_CELL; wxEventType wxEVT_GRID_EDITOR_SHOWN; wxEventType wxEVT_GRID_EDITOR_HIDDEN; wxEventType wxEVT_GRID_EDITOR_CREATED; wxEventType wxEVT_GRID_CELL_BEGIN_DRAG; wxEventType wxEVT_GRID_COL_MOVE; wxEventType wxEVT_GRID_COL_SORT; wxEventType wxEVT_GRID_TABBING;