///////////////////////////////////////////////////////////////////////////// // Name: composit.h // Purpose: wxCompositeShape // Author: Julian Smart // Modified by: // Created: 12/07/98 // RCS-ID: $Id$ // Copyright: (c) Julian Smart // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifndef _OGL_COMPOSIT_H_ #define _OGL_COMPOSIT_H_ #if defined(__GNUG__) && !defined(__APPLE__) #pragma interface "composit.h" #endif class WXDLLIMPEXP_OGL wxDivisionShape; class WXDLLIMPEXP_OGL wxOGLConstraint; /* * A composite object is an invisible rectangle surrounding all children * */ class WXDLLIMPEXP_OGL wxCompositeShape: public wxRectangleShape { DECLARE_DYNAMIC_CLASS(wxCompositeShape) public: wxCompositeShape(); ~wxCompositeShape(); void OnDraw(wxDC& dc); void OnDrawContents(wxDC& dc); void OnErase(wxDC& dc); bool OnMovePre(wxDC& dc, double x, double y, double oldX, double oldY, bool display = TRUE); void OnDragLeft(bool draw, double x, double y, int keys, int attachment = 0); void OnBeginDragLeft(double x, double y, int keys, int attachment = 0); void OnEndDragLeft(double x, double y, int keys, int attachment = 0); void OnRightClick(double x, double y, int keys, int attachment = 0); void SetSize(double w, double h, bool recursive = TRUE); // Returns TRUE if it settled down bool Recompute(); // New members void AddChild(wxShape *child, wxShape *addAfter = NULL); void RemoveChild(wxShape *child); wxOGLConstraint *AddConstraint(wxOGLConstraint *constraint); wxOGLConstraint *AddConstraint(int type, wxShape *constraining, wxList& constrained); wxOGLConstraint *AddConstraint(int type, wxShape *constraining, wxShape *constrained); void DeleteConstraint(wxOGLConstraint *constraint); // Delete constraints that involve this child. void DeleteConstraintsInvolvingChild(wxShape *child); // Remove the image from any constraints involving it, but DON'T // remove any constraints. void RemoveChildFromConstraints(wxShape *child); // Find constraint, also returning actual composite the constraint was in, // in case it had to find it recursively. wxOGLConstraint *FindConstraint(long id, wxCompositeShape **actualComposite = NULL); // Returns TRUE if something changed bool Constrain(); // Make this composite into a container by creating one wxDivisionShape void MakeContainer(); // Calculates size and position of composite object based on children void CalculateSize(); #if wxUSE_PROLOGIO void WriteAttributes(wxExpr *clause); void ReadAttributes(wxExpr *clause); // In case the object has constraints it needs to read in in a different pass void ReadConstraints(wxExpr *clause, wxExprDatabase *database); #endif // Does the copying for this object void Copy(wxShape& copy); virtual wxDivisionShape *OnCreateDivision(); // Finds the image used to visualize a container. This is any child // of the composite that is not in the divisions list. wxShape *FindContainerImage(); // Returns TRUE if division is a descendant of this container bool ContainsDivision(wxDivisionShape *division); inline wxList& GetDivisions() const { return (wxList&) m_divisions; } inline wxList& GetConstraints() const { return (wxList&) m_constraints; } protected: double m_oldX; double m_oldY; wxList m_constraints; wxList m_divisions; // In case it's a container }; /* * A division object is a composite with special properties, * to be used for containment. It's a subdivision of a container. * A containing node image consists of a composite with a main child shape * such as rounded rectangle, plus a list of division objects. * It needs to be a composite because a division contains pieces * of diagram. * NOTE a container has at least one wxDivisionShape for consistency. * This can be subdivided, so it turns into two objects, then each of * these can be subdivided, etc. */ #define DIVISION_SIDE_NONE 0 #define DIVISION_SIDE_LEFT 1 #define DIVISION_SIDE_TOP 2 #define DIVISION_SIDE_RIGHT 3 #define DIVISION_SIDE_BOTTOM 4 class WXDLLIMPEXP_OGL wxDivisionShape: public wxCompositeShape { DECLARE_DYNAMIC_CLASS(wxDivisionShape) public: wxDivisionShape(); ~wxDivisionShape(); void OnDraw(wxDC& dc); void OnDrawContents(wxDC& dc); bool OnMovePre(wxDC& dc, double x, double y, double oldX, double oldY, bool display = TRUE); void OnDragLeft(bool draw, double x, double y, int keys, int attachment = 0); void OnBeginDragLeft(double x, double y, int keys, int attachment = 0); void OnEndDragLeft(double x, double y, int keys, int attachment = 0); void OnRightClick(double x, double y, int keys = 0, int attachment = 0); // Don't want this kind of composite to resize its subdiagrams, so // override composite's SetSize. void SetSize(double w, double h, bool recursive = TRUE); // Similarly for calculating size: it's fixed at whatever SetSize // set it to, not in terms of children. void CalculateSize(); void MakeControlPoints(); void ResetControlPoints(); void MakeMandatoryControlPoints(); void ResetMandatoryControlPoints(); #if wxUSE_PROLOGIO void WriteAttributes(wxExpr *clause); void ReadAttributes(wxExpr *clause); #endif // Does the copying for this object void Copy(wxShape& copy); // Divide horizontally (wxHORIZONTAL) or vertically (wxVERTICAL) bool Divide(int direction); // Resize adjoining divisions at the given side. If test is TRUE, // just see whether it's possible for each adjoining region, // returning FALSE if it's not. bool ResizeAdjoining(int side, double newPos, bool test); // Adjust a side, returning FALSE if it's not physically possible. bool AdjustLeft(double left, bool test); bool AdjustTop(double top, bool test); bool AdjustRight(double right, bool test); bool AdjustBottom(double bottom, bool test); // Edit style of left or top side void EditEdge(int side); // Popup menu void PopupMenu(double x, double y); inline void SetLeftSide(wxDivisionShape *shape) { m_leftSide = shape; } inline void SetTopSide(wxDivisionShape *shape) { m_topSide = shape; } inline void SetRightSide(wxDivisionShape *shape) { m_rightSide = shape; } inline void SetBottomSide(wxDivisionShape *shape) { m_bottomSide = shape; } inline wxDivisionShape *GetLeftSide() const { return m_leftSide; } inline wxDivisionShape *GetTopSide() const { return m_topSide; } inline wxDivisionShape *GetRightSide() const { return m_rightSide; } inline wxDivisionShape *GetBottomSide() const { return m_bottomSide; } inline void SetHandleSide(int side) { m_handleSide = side; } inline int GetHandleSide() const { return m_handleSide; } inline void SetLeftSidePen(wxPen *pen) { m_leftSidePen = pen; } inline wxPen *GetLeftSidePen() const { return m_leftSidePen; } inline void SetTopSidePen(wxPen *pen) { m_topSidePen = pen; } inline wxPen *GetTopSidePen() const { return m_topSidePen; } void SetLeftSideColour(const wxString& colour); void SetTopSideColour(const wxString& colour); void SetLeftSideStyle(const wxString& style); void SetTopSideStyle(const wxString& style); inline wxString GetLeftSideColour() const { return m_leftSideColour; } inline wxString GetTopSideColour() const { return m_topSideColour; } inline wxString GetLeftSideStyle() const { return m_leftSideStyle; } inline wxString GetTopSideStyle() const { return m_topSideStyle; } protected: // Adjoining divisions. NULL indicates edge // of container, and that side shouldn't be // drawn. wxDivisionShape* m_leftSide; wxDivisionShape* m_rightSide; wxDivisionShape* m_topSide; wxDivisionShape* m_bottomSide; int m_handleSide; // Side at which handle is legal wxPen* m_leftSidePen; wxPen* m_topSidePen; wxString m_leftSideColour; wxString m_topSideColour; wxString m_leftSideStyle; wxString m_topSideStyle; }; #define DIVISION_MENU_SPLIT_HORIZONTALLY 1 #define DIVISION_MENU_SPLIT_VERTICALLY 2 #define DIVISION_MENU_EDIT_LEFT_EDGE 3 #define DIVISION_MENU_EDIT_TOP_EDGE 4 #define DIVISION_MENU_EDIT_RIGHT_EDGE 5 #define DIVISION_MENU_EDIT_BOTTOM_EDGE 6 #define DIVISION_MENU_DELETE_ALL 7 #endif // _OGL_COMPOSIT_H_