diff --git a/wrap/gui/trackball.h b/wrap/gui/trackball.h index 5cb9d468..83e021da 100644 --- a/wrap/gui/trackball.h +++ b/wrap/gui/trackball.h @@ -2,14 +2,13 @@ * VCGLib o o * * Visual and Computer Graphics Library o o * * _ O _ * -* Copyright(C) 2004 -\/)\/ * +* Copyright(C) 2004 \/)\/ * * Visual Computing Lab /\/| * * ISTI - Italian National Research Council | * * \ * * All rights reserved. * * * -* This program is free software; you can redistribute it and/or modify * +* This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * @@ -25,6 +24,9 @@ History $Log: not supported by cvs2svn $ +Revision 1.15 2007/06/13 17:15:08 benedetti +Added one-level undo system and sticky trackmodes. + Revision 1.14 2007/05/15 15:00:47 benedetti Moved the drawing code to trackmodes, some other minor changes @@ -72,52 +74,6 @@ Adding copyright. ****************************************************************************/ -/**************************************************************************** -Short usage note: - -The trackball is a manipulator of an object - -Center specify the center of rotation and scaling of the trackball and usually -is set by the program and do not interactively change -Radius specify the radius of the interactive ball shaped icon to specify rotation. -It is in absolute unit but it should be in screen related units like the previoous -one it is not changed during interaction. - -When you specify a traslation with the trackball the trackball center remain UNCHANGED, -in other words it means that the object move out of the trackball icon. -Similarly when you apply a scaling the size of the iconshaped ball do not change. - - -Typical use: - - glMatrixMode(GL_PROJECTION); - glLoadIdentity(); - gluPerspective(60, float(width())/float(height()), 1, 100); - glMatrixMode(GL_MODELVIEW); - glLoadIdentity(); - gluLookAt(0,0,3, 0,0,0, 0,1,0); - - trackball.center=Point3f(0, 0, 0); - trackball.radius= 1; - - trackball.GetView(); - trackball.Apply(); - - float d=1.0f/mesh.bbox.Diag(); - glScale(d); - glTranslate(-mesh.bbox.Center()); - mesh->Render(); - -Note on the typical use: -Perspective and gllookat are choosed to frame the origin centered 1-radius -trackball. -The final scale and translate are just to fit a generic mesh to the 1sized -origin centered where the trackball stays box. -The trackball works also on Orthographic projections -BUT that are not centered around origin (just move it back along the Z) - -****************************************************************************/ - #ifndef TRACKBALL_H #define TRACKBALL_H @@ -130,96 +86,316 @@ BUT that are not centered around origin (just move it back along the Z) #include namespace vcg { - /* A trackball stores a transformation called 'track' that effectively rotate the object. - the rotation center, and size are kept in center and radius. - +/*! + @brief The base class for Trackball. + + This class is useful for using a Trackball instance in a scene graph, + as a sort of interactive transform. +*/ +class Transform { +public: + /*! + @brief The constructor. + + Initialize: + - track to the identity transform. + - center to origin 0,0,0. + - radius to unit size. */ + Transform(); + /// A trackball stores a transformation called 'track' that effectively rototranslate the object. + Similarityf track; + /// track position in model space. + Point3f center; + /// size of the widget in model space. + float radius; +}; - class Transform { - public: - Transform(); - Similarityf track; - - /// track position in model space. default is 0,0,0 - Point3f center; - /// size of the widget in model space. - float radius; - }; +/*! + @brief Computes the linear interpolation between 2 transforms. - Transform interpolate(const Transform &a, const Transform &b, float t); + @param a The first transform. + @param b The second transform. + @param t The interpolation value (0: just a, 0.5: middle from a to b, 1: just b). + @return The linear interpolation. +*/ +Transform interpolate(const Transform &a, const Transform &b, float t); - class TrackMode; - class Trackball: public Transform { - public: +class TrackMode; + +/*! + @brief The manipulator manager system. + + Short usage note: + + - Center specify the center of rotation and scaling of the trackball and usually is set by the program and do not interactively change + - Radius specify the radius of the interactive ball shaped icon to specify rotation. It is in absolute unit. + - Like the previous one it is not changed during interaction. + + When you specify a translation with the trackball the trackball center remain \b unchanged, in other words it means that the object move out of the trackball icon. Similarly when you apply a scaling the size of the manipulator icon do not change. + + Typical use: +
+glMatrixMode(GL_PROJECTION);
+glLoadIdentity();
+gluPerspective(60, float(width())/float(height()), 1, 100);
+glMatrixMode(GL_MODELVIEW);
+glLoadIdentity();
+gluLookAt(0,0,3,   0,0,0,   0,1,0)
+
+trackball.center=Point3f(0, 0, 0);
+trackball.radius= 1;
+
+trackball.GetView();
+trackball.Apply(true); //false if you want an invisible trackball
+
+float d=1.0f/mesh.bbox.Diag();
+glScale(d);
+glTranslate(-mesh.bbox.Center());
+mesh->Render();
+
+ + Note on the typical use: + - Perspective and glulookat are choosed to frame the origin centered 1-radius trackball. + - The final scale and translate are just to fit a generic mesh to the 1sized origin centered where the trackball stays box. + - The trackball works also on Orthographic projections \b but that are not centered around origin (just move it back along the Z) +*/ +class Trackball: public Transform { +public: // the drawing code has been moved to the trackmodes // class DrawingHint { // DrawingHint DH; - - enum Button { BUTTON_NONE = 0x0000, - BUTTON_LEFT = 0x0001, - BUTTON_MIDDLE = 0x0002, - BUTTON_RIGHT = 0x0004, - WHEEL = 0x0008, - KEY_SHIFT = 0x0010, - KEY_CTRL = 0x0020, - KEY_ALT = 0x0040, - HANDLE = 0x0080 }; + /// The componibile states of the manipulator system. + enum Button { BUTTON_NONE = 0x0000, ///< No mouse button pressed. + BUTTON_LEFT = 0x0001, ///< Left mouse button pressed. + BUTTON_MIDDLE = 0x0002, ///< Middle mouse button pressed. + BUTTON_RIGHT = 0x0004, ///< Right mouse button pressed. + WHEEL = 0x0008, ///< Mouse wheel activated. + KEY_SHIFT = 0x0010, ///< Shift key pressed. + KEY_CTRL = 0x0020, ///< Ctrl key pressed. + KEY_ALT = 0x0040, ///< Alt key pressed. + HANDLE = 0x0080 ///< Application-defined state activated. + }; - Trackball(); - ~Trackball(); - void SetIdentity(); - void SetPosition(const Point3f &c, int millisec = 0); - void SetScale(const float s) {radius=s;}; - void SetTransform(const Transform &transform, int millisec = 0); - void Translate(Point3f tr); - void Scale(const float f); + /*! + @brief The constructor. + Initialize the internal state with default values + and call setDefaultMapping(). + */ + Trackball(); + /*! + @brief The destructor. - //operating - void GetView(); - void Apply(bool Draw); - void Apply (); - void DrawPostApply(); - void ApplyInverse(); - // DrawIcon() has been moved to trackutils.h - //void DrawIcon(); - void Reset(); + @warning The destructor does not deallocate the memory allocated by setDefaultMapping(), because the application can change the modes map. This can lead to small memory leaks, so please explicitally delete any manipulator in the modes map if you are going to repeatly allocate and deallocate Trackball instances. + */ + ~Trackball(); + /*! + @brief Reset the trackball. - // DrawCircle (), DrawPlane(), DrawPlaneHandle() has been moved to trackutils.h - // the drawing code has been moved to the trackmodes - // void DrawCircle (); - // void DrawPlane(); - // void DrawPlaneHandle(); + Equivalent to Reset(). + */ + void SetIdentity(); + /*! + @brief Set the position of the trackball. - //interface - void MouseDown(/*Button*/ int button); - void MouseDown(int x, int y, /*Button*/ int button); - void MouseMove(int x, int y); - void MouseUp(int x, int y, /*Button */ int button); - void MouseWheel(float notch); // it assumes that a notch of 1.0 is a single step of the wheel - void MouseWheel (float notch, /*Button */ int button); - void ButtonUp(Button button); - void ButtonDown(Button button); - void Undo(); + @param c The new position of the trackball. + @param millisec Currently not in use. + */ + void SetPosition(const Point3f &c, int millisec = 0); + /*! + @brief Currently not in use. - //default sensitivity 1 - void SetSensitivity(float s); + @param s Currently not in use. + */ + void SetScale(const float s) {radius=s;}; + /*! + @brief Currently not in use. - //spinning interface - void SetSpinnable(bool on); - bool IsSpinnable(); - void SetSpinning(Quaternionf &spin); - void StopSpinning(); - bool IsSpinning(); + @param transform Currently not in use. + @param millisec Currently not in use. + */ + void SetTransform(const Transform &transform, int millisec = 0); + /*! + @brief Apply a translation on the current transformation. - //interfaccia navigation: - void Back(); - void Forward(); - void Home(); - void Store(); - void HistorySize(int lenght); + @param tr The translation vector. + */ + void Translate(Point3f tr); + /*! + @brief Apply a scaling on the current transformation. + + @param f The scale factor. + */ + void Scale(const float f); + + //operating + /*! + @brief Initialize the camera instance. + */ + void GetView(); + /*! + @brief Apply the current transformation on the OpenGL modelview matrix. + + @param Draw true if has to call DrawPostApply() after the application. + */ + void Apply(bool Draw); + /*! + @brief Old application of the transformation. + + @warning This function does \b not call DrawPostApply() after the application. + */ + void Apply (); + /*! + @brief Draw the current manipulator. + + Call the draw function of the current manipulator. + If no manipulator is selected call the draw function of the manipulator associated to inactive_mode. + + @warning This function assumes that the OpenGL modelview matrix has been initialized with Apply (). + */ + void DrawPostApply(); + /*! + @brief Apply the \b inverse of current transformation on the OpenGL modelview matrix. + */ + void ApplyInverse(); + // DrawIcon() has been moved to trackutils.h + //void DrawIcon(); + /*! + @brief Reset the transformation and every mapped manipulator. + */ + void Reset(); + + // DrawCircle (), DrawPlane(), DrawPlaneHandle() has been moved to trackutils.h + // the drawing code has been moved to the trackmodes + // void DrawCircle (); + // void DrawPlane(); + // void DrawPlaneHandle(); + + //interface + /*! + @brief Interface function relative to mouse down event in QT/SDL. + + @param button The new state. + */ + void MouseDown(/*Button*/ int button); + /*! + @brief Interface function relative to mouse down event in QT/SDL. + + @param x The horizontal coordinate of the mouse pointer. + @param y The vertical coordinate of the mouse pointer. + @param button The new state. + */ + void MouseDown(int x, int y, /*Button*/ int button); + /*! + @brief Interface function relative to mouse down event in QT/SDL. + + @param x The horizontal coordinate of the mouse pointer. + @param y The vertical coordinate of the mouse pointer. + */ + void MouseMove(int x, int y); + /*! + @brief Interface function relative to mouse down event in QT/SDL. + + @param x The horizontal coordinate of the mouse pointer. + @param y The vertical coordinate of the mouse pointer. + @param button The new state. + */ + void MouseUp(int x, int y, /*Button */ int button); + /*! + @brief Old interface function relative to mouse down event in QT/SDL. + + @param notch The mouse wheel notch (1: one forward step, -1: one backward step). + */ + void MouseWheel(float notch); + /*! + @brief Interface function relative to mouse down event in QT/SDL. + + @param notch The mouse wheel notch (1: one forward step, -1: one backward step). + @param button The new state. + */ + void MouseWheel (float notch, /*Button */ int button); + /*! + @brief Interface function relative to key down event in QT/SDL. + + @param button the new state. + */ + void ButtonUp(Button button); + /*! + @brief Interface function relative to key up event in QT/SDL. + + @param button the new state. + */ + void ButtonDown(Button button); + /*! + @brief Undo function for manipulator system. + + A call of this function restores the state before last user action. + This function calls %Undo() on every mapped manipulator. + */ + void Undo(); + + //default sensitivity 1 + /*! + @brief Currently not in use. + + @param s Currently not in use. + */ + void SetSensitivity(float s); + + //spinning interface + /*! + @brief Currently not in use. + + @param on Currently not in use. + */ + void SetSpinnable(bool on); + /*! + @brief Currently not in use. + + @return A meaningless boolean value. + */ + bool IsSpinnable(); + /*! + @brief Currently not in use. + + @param spin Currently not in use. + */ + void SetSpinning(Quaternionf &spin); + /*! + @brief Currently not in use. + */ + void StopSpinning(); + /*! + @brief Currently not in use. + + @return A meaningless boolean value. + */ + bool IsSpinning(); + + //interfaccia navigation: + /*! + @brief Currently not in use. + */ + void Back(); + /*! + @brief Currently not in use. + */ + void Forward(); + /*! + @brief Currently not in use. + */ + void Home(); + /*! + @brief Currently not in use. + */ + void Store(); + /*! + @brief Currently not in use. + */ + void HistorySize(int lenght); /* //internals // commented out no more used this stuff! enum Action { NONE = 0, @@ -236,48 +412,86 @@ namespace vcg { TRACK_SCALE = 13 }; */ - // loads/stores current status from/to ascii stings - void ToAscii(char * st); - bool SetFromAscii(char * st); - - //protected: - View camera; + // loads/stores current status from/to ascii stings + /*! + @brief Currently not in use. - void SetCurrentAction(); - - int current_button; - TrackMode *current_mode; + @param st Currently not in use. + */ + void ToAscii(char * st); + /*! + @brief Currently not in use. - // inactive_mode is used to draw the inactive trackball - // can be assigned, for example, to draw an area or a path - // even when the user is not interacting with it - TrackMode *inactive_mode; - - // reset modes to default mapping. - void setDefaultMapping (); + @param st Currently not in use. + @return A meaningless boolean value. + */ + bool SetFromAscii(char * st); - std::map modes; + //protected: + /// The reference for point projection and unprojection from screen space to modelspace. + View camera; + /*! + @brief Prepare Trackball and every mapped TrackMode for an user action. - Similarityf last_track; - - // undo_track and last_track have different meanings.. - Similarityf undo_track; - - Similarityf last_view; - Point3f last_point; - std::vector Hits; - bool dragging; - int button_mask; + This function is called automatically when an user action begins. + */ + void SetCurrentAction(); + /// Current state composition. + int current_button; + /// The selected manipulator. + TrackMode *current_mode; - Quaternionf spin; - bool spinnable; - bool spinning; - - std::list history; - int history_size; + /// The inactive manipulator. It is drawed when Trackball is inactive. + TrackMode *inactive_mode; - friend class TrackMode; - }; + /*! + @brief Reset modes to default mapping. + + Set the default modes mapping. + The default mapping is: + - \b LEFT : SphereMode. + - \b LEFT+CTRL or \b MIDDLE : PanMode. + - \b LEFT+SHIFT or \b WHEEL : ScaleMode. + - \b LEFT+ALT : ZMode. + + @warning The memory allocated by this function is not automatically deallocated. see ~Trackball(). + */ + void setDefaultMapping (); + + /// The manipulator mapping. Needs to be explicitally managed for custom mappings. + std::map modes; + + // undo_track and last_track have different meanings.. + /// Transformation before current user action. + Similarityf last_track; + /// track after an Undo() call. + Similarityf undo_track; + /// Currently not in use. + Similarityf last_view; + /// Mouse cursor coordinates before current action. + Point3f last_point; + /// Currently not in use. + std::vector Hits; + /// Currently not in use. + bool dragging; + /// Currently not in use. + int button_mask; + + /// Currently not in use. + Quaternionf spin; + /// Currently not in use. + bool spinnable; + /// Currently not in use. + bool spinning; + + /// Currently not in use. + std::list history; + /// Currently not in use. + int history_size; + + /// Manipulators needs full access to this class. + friend class TrackMode; +}; }//namespace diff --git a/wrap/gui/trackmode.h b/wrap/gui/trackmode.h index 95076547..da9b0f83 100644 --- a/wrap/gui/trackmode.h +++ b/wrap/gui/trackmode.h @@ -8,7 +8,7 @@ * \ * * All rights reserved. * * * -* This program is free software; you can redistribute it and/or modify * +* This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * @@ -24,6 +24,9 @@ History $Log: not supported by cvs2svn $ +Revision 1.14 2007/07/09 22:47:18 benedetti +Removed using namespace std and modified accordingly. + Revision 1.13 2007/06/25 10:21:38 fiorin Added some std:: here and there @@ -73,39 +76,119 @@ Adding copyright. #include namespace vcg { - + class Trackball; -// Base class for all the track modes. -// This class' functions does nothing. +/*! + @brief Base class for all the manipulators. + + Functions in this class implements the default + behaviour of a manipulator: doing nothing. + + Every manipulator must be subclass of this class. +*/ class TrackMode { public: + /*! + @brief The default virtual destructor + */ virtual ~TrackMode () { - } + } + /*! + @brief The default manipulator application for mouse drags. + + This default application does nothing. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ virtual void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief The default manipulator application for mouse scrolls. + + This default application does nothing. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ virtual void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief The default manipulator's begin action function. + + This default implementation does nothing. + */ virtual void SetAction (); - virtual void Reset (); + /*! + @brief The default manipulator's reset function. + + If a manipulator has a state, it can be reset to the inital state calling this function. + */ + virtual void Reset (); + /*! + @brief The default manipulator's name. + + @return the constant string "TrackMode" + */ virtual const char *Name (){ return "TrackMode"; }; + /*! + @brief The default manipulator's render function. + + @param trackball the manipulator manager. + */ virtual void Draw (Trackball * trackball); + /*! + @brief The default avaibility to manipulator changes inside an action. + + Every manipulator class can choose if the manipulator manager can switch + between it and another manipulator in the middle of an user action, + e.g. switching Trackball's current_mode without releasing the mouse button. + + The default behaviour is to allow the switch. + + Blocking switches is useful for stateful manipulators, regarding state + consistency respect to Trackball's %Undo() calls. + @return false if manipulator permits the switch. + */ virtual bool isSticky(); + /*! + @brief The default manipulator's undo function. + + If a manipulator has a state, it must be undoable with a call of this function. + The undo must recreate the state present before the last Apply() call. + + This default implementation does nothing. + */ virtual void Undo(); }; -// Inactive mode. -// useful only for drawing the inactive trackball +/*! + @brief An inactive manipulator. + + This manipulator is useful only for drawing the inactive trackball + and for feeding occasional Trackball's modes with inactive manipulators. +*/ class InactiveMode:public TrackMode { public: + /*! + @brief Return this manipulator's name. + + @return the constant string "InactiveMode" + */ const char *Name () { return "InactiveMode"; }; - void Draw (Trackball * trackball); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ + void Draw (Trackball * trackball); }; /* View space modes */ - + // old interfaces /* class SphereMode: public TrackMode { @@ -125,240 +208,800 @@ class ScaleMode: public TrackMode { */ // Sphere mode. -// The classic trackball. +/*! + @brief The classic \e arcball manipulator. + + This class implements the classic free rotation manipulator, + called \e arcball or \e trackball. + + This is a stateless manipulator, result of the Apply function is + determined only by the mouse coordinates. +*/ class SphereMode:public TrackMode { public: + /*! + @brief Apply a rotation, function of the user mouse drag action. + + Map a mouse drag action on a rotation, and apply the rotation to the manipulated objects. + + If the user does not hit the sphere that surrounds the manipulated object(s), + a rotational hyperboloid is used to compute the rotation. + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Return this manipulator's name. + + @return the constant string "SphereMode" + */ const char *Name () { return "SphereMode"; }; + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); }; // Panning mode. -// The user can drag the model on the view plane. +/*! + @brief The panning manipulator. + + This manipulator implements a bidimensional translation + on the view plane. + + This is a stateless manipulator, result of the Apply function is + determined only by the mouse coordinates. +*/ class PanMode:public TrackMode { public: + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is dragged in the plane parallel to the screen. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Return this manipulator's name. + + @return the constant string "PanMode" + */ const char *Name () { return "PanMode"; }; - void Draw (Trackball * trackball); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ + void Draw (Trackball * trackball); }; // Z mode. -// Dragging the mouse up and down or scrolling the -// mouse wheel will move the object along the Z of the camera. +/*! + @brief The Z-directional manipulator. + + This manipulator implements a monodimensional translation + on the axis normal to the view plane. + + Dragging the mouse up and down or scrolling the + mouse wheel will move the object along the Z of the camera. + + This is a stateless manipulator, result of the Apply functions is + determined only either by the mouse coordinates or by the mouse wheel notch. +*/ class ZMode:public TrackMode { public: + /*! + @brief Return this manipulator's name. + + @return the constant string "ZMode" + */ const char *Name () { return "ZMode"; }; + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is moved along the Z of the camera: + - Dragging the mouse down will move the object nearer to the camera. + - Dragging the mouse up will move the object farther from the camera. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Apply a translation, function of the user mouse wheel action. + + The manipulated object is moved along the Z of the camera: + - Scrolling the mouse wheel down will move the object nearer to the camera. + - Scrolling the mouse wheel up will move the object farther from the camera. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); }; // Scale Mode. -// Dragging the mouse up and down or scrolling the -// mouse wheel will scale the object. +/*! + @brief The scale manipulator. + + This manipulator implements a scaling transformation. + + Dragging the mouse up and down or scrolling the + mouse wheel will scale the object. + + This is a stateless manipulator, result of the Apply functions is + determined only either by the mouse coordinates or by the mouse wheel notch. +*/ class ScaleMode:public TrackMode { public: + /*! + @brief Return this manipulator's name. + + @return the constant string "ScaleMode" + */ const char *Name () { return "ScaleMode"; }; + /*! + @brief Apply a scaling, function of the user mouse drag action. + + The manipulated object is scaled in this way: + - Dragging the mouse up will scale the object to a smaller dimension. + - Dragging the mouse down will scale the object to a greater dimension. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Apply a scaling, function of the user mouse wheel action. + + The manipulated object is scaled in this way: + - Scrolling the mouse wheel up will scale the object to a smaller dimension. + - Scrolling the mouse wheel down will scale the object to a greater dimension. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); }; // Axis mode. -// Moves the object in a costrained direction. -// The user can either drag the mouse or scroll the wheel. -// The direction can be specified either with a line -// or a origin and a direction. -// the object posistion is not needed to be on the line. +/*! + @brief The one-directional manipulator. + + This manipulator implements a monodimensional translation + on a constrained direction. + + Dragging the mouse up and down or scrolling the + mouse wheel will move the object along the direction. + + This is a stateless manipulator, result of the Apply functions is + determined only either by the mouse coordinates or by the mouse wheel notch. +*/ class AxisMode:public TrackMode { public: + /*! + @brief The line constructor. + + This manipulator needs to be initialized with a direction. + This constructor can initialize it with a Line3f. + + The line will be normalized. + @param ln the line that represent the direction. + */ AxisMode (const Line3f & ln) : axis (ln) { - } + } + /*! + @brief The origin-direction constructor. + + This manipulator needs to be initialized with a direction. + This constructor can initialize it with two Point3f, + representing a point and a vector. + + @param origin a point on the line. + @param direction the line direction. + */ AxisMode (const Point3f & origin, const Point3f & direction) { axis = Line3fN (origin, direction); } + /*! + @brief Return this manipulator's name. + + @return the constant string "AxisMode" + */ const char *Name () { return "AxisMode"; }; + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is moved along the direction. + + If the pointer ray is divergent from the direction the + object is not moved. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Apply a translation, function of the user mouse wheel action. + + The manipulated object is moved along the direction. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); private: - Line3fN axis; + /// The direction, stored as a normalized line. + Line3fN axis; }; // Plane mode. -// The user can drag the object in a costrained plane. -// The plane can be specified either with a plane -// or the plane's equation parameters -// the object posistion is not needed to be on the plane. +/*! + @brief The planar manipulator. + + This manipulator implements a bidimensional translation + on a constrained plane. + + This is a stateless manipulator, result of the Apply function is + determined only by the mouse coordinates. +*/ class PlaneMode:public TrackMode { public: + /*! + @brief The plane costants constructor. + + This manipulator needs to be initialized with a plane. + This constructor can initialize it with the four coefficients + of the plane equation \f$ ax + by + cz + d = 0 \f$. + + @param a the first coefficient of the plane equation. + @param b the second coefficient of the plane equation. + @param c the third coefficient of the plane equation. + @param d the fourth coefficient of the plane equation. + */ PlaneMode (float a, float b, float c, float d) : plane(Plane3f(d,Point3f(a,b,c))){ - } + } + /*! + @brief The plane constructor. + + This manipulator needs to be initialized with a plane. + This constructor can initialize it with a Plane3f. + + @param pl the plane. + */ PlaneMode (Plane3f & pl) : plane(pl) { } - const char *Name () { + /*! + @brief Return this manipulator's name. + + @return the constant string "PlaneMode" + */ + const char *Name () { return "PlaneMode"; }; + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is dragged in the plane. + + If the pointer ray is divergent from the plane the + object is not moved. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); private: + /// The plane. Plane3f plane; }; // Cylinder mode. -// Rotates the object along a fixed axis -// The user can either drag the mouse or scroll the wheel, -// in either cases the rotation's angle is influenced by -// the radius of the trackball. -// The axis can be specified either with a line -// or a origin and a direction -// when the user drags the mouse, if the axis is too -// perpendicular to view plane, the angle is specified -// only by the vertical component of the mouse drag and the radius. +/*! + @brief The constrained rotation manipulator. + + This manipulator implements a rotation manipulator, that + make the rotation constrained around a given axis. + + The user can either drag the mouse or scroll the wheel, + in either cases the rotation's angle is influenced by + the radius of the trackball. + + This is a stateless manipulator, result of the Apply functions is + determined only either by the mouse coordinates or by the mouse wheel notch. +*/ class CylinderMode:public TrackMode { public: + /*! + @brief The line constructor. + + This manipulator needs to be initialized with an axis. + This constructor can initialize it with a Line3f. + + The line will be normalized. + @param ln the line that represent the axis. + */ CylinderMode (Line3fN & ln) : axis (ln){ } + /*! + @brief The origin-direction constructor. + + This manipulator needs to be initialized with a axis. + This constructor can initialize it with two Point3f, + representing a point and a vector. + + @param origin a point on the axis. + @param direction the axis direction. + */ CylinderMode (const Point3f & origin, const Point3f & direction) - : axis (Line3fN(origin,direction)){ + : axis (Line3fN(origin,direction)){ } + /*! + @brief Return this manipulator's name. + + @return the constant string "CylinderMode" + */ const char *Name () { return "CylinderMode"; }; + /*! + @brief Apply a rotation, function of the user mouse drag action. + + The manipulated object is rotated around the axis. + + if the axis is too perpendicular to view plane, the angle is specified + only by the vertical component of the mouse drag and the radius. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Apply a rotation, function of the user mouse wheel action. + + The manipulated object is rotated around the axis. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); private: + /// The axis, stored as a normalized line. Line3fN axis; }; // Path mode. -// move the object along an eventually closed path. -// The user can either drag the mouse or scroll the wheel, -// when the user drags the mouse, the object tries to slide toward it. -// if the path is a simple segment, it can be specified just with the endpoints, -// otherwise it's specified with a point vector and, eventually, a boolean value used for closing the path. -// the object is assumed to initially be on the same position of the first point on the path. -// you can try to set the starting point calling SetStartNear(Point3f) -// the path is NOT assumed to have 0-length segments, so, if you want to close the path, please DO NOT add -// a copy of the first point on the end of the vector... -// the vector passed to build the path is copied locally. +/*! + @brief The path constrained manipulator. + + This manipulator moves the object along an eventually closed path. + + The user can either drag the mouse or scroll the wheel, + when the user drags the mouse, the object tries to slide toward it. + + The object is assumed to initially be on the same position + of the first point on the path. + + This is a \b stateful manipulator, result of the Apply functions is + determined by the objects's position along the path and + by either the mouse coordinates or the mouse wheel notch. +*/ class PathMode:public TrackMode { public: - PathMode ( const std::vector < Point3f > &pts, bool w = false) +/*! + @brief The vector-boolean constructor. + + The vector passed to build the path is copied locally. + The boolean value specifies if the path is to be closed. + If the boolean value is not specified, the path is not closed. + + @warning the path is \b not assumed to have 0-length segments, so, if you want to close the path, please do not add a copy of the first point on the end of the vector. + + @param pts the path nodes. + @param w a boolean value that closes the path. +*/ + PathMode ( const std::vector < Point3f > &pts, bool w = false) : points(), wrap(w), current_state(0), initial_state(0), old_hitpoint() { Init(pts); - assert(min_seg_length > 0.0f); + assert(min_seg_length > 0.0f); } +/*! + @brief The segment constructor. + + If the path is a simple segment, it can be specified just with the endpoints. + + @param start the starting point. + @param end the ending point. +*/ PathMode ( const Point3f &start, const Point3f &end ) : points(), wrap(false), current_state(0), initial_state(0), old_hitpoint() { - points.push_back(start); - points.push_back(end); - path_length=Distance(start,end); - min_seg_length=path_length; - assert(min_seg_length > 0.0f); - } + points.push_back(start); + points.push_back(end); + path_length=Distance(start,end); + min_seg_length=path_length; + assert(min_seg_length > 0.0f); + } + /*! + @brief Return this manipulator's name. + + @return the constant string "PathMode" + */ const char *Name () { return "PathMode"; }; + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is moved along the path. + This function implements an algorithm that makes + the object try to slide on the path towards the + mouse pointer. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Apply a translation, function of the user mouse wheel action. + + The manipulated object is moved along the path. + A step of the mouse wheel makes the object slide + by a distance equal to the half of the shortest + segment on the path. + + @param trackball the manipulator manager. + @param WheelNotch the mouse wheel notch. + */ void Apply (Trackball * trackball, float WheelNotch); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); + /*! + @brief The begin action function. + + This function is to be called at the begin of an user action. + */ void SetAction (); + /*! + @brief The reset function. + + This function reset the object position to the initial point. + */ void Reset (); + /*! + @brief Try to set the inital point. + + This function try to set the starting point in the point + passed as parameter, if the point passed does not reside + on the path, the start is put on the closest point on it. + + @param p the point wished for the start. + @return the starting point on the path. + */ Point3f SetStartNear(Point3f p); + /*! + @brief The (non) avaibility to manipulator changes inside an action. + + This manipulator has an internal state and does not allow a + switch in the middle of a function. + + @return the costant boolean true. + */ bool isSticky(); + /*! + @brief The undo function. + + This function recreates the state present before the last Apply() call. + */ void Undo(); private: - void Init(const std::vector < Point3f > &points); + /*! + @brief The data initializer. + + Initialize the internal state and checks params validity. + + @param points the path nodes. + */ + void Init(const std::vector < Point3f > &points); + /*! + @brief The state interpreter. + + Given the state, return the current point, the previous node and + the next node on the path. + The algoritm is linear in the node paths. + + @param state the given state. + @param point is set to the current point. + @param prev_point is set to the point of current point's previous node. + @param next_point is set to the point of current point's next node. + */ void GetPoints(float state, Point3f & point, Point3f & prev_point, Point3f & next_point); + /*! + @brief The state normalizer. + + Normalize a given state in the right interval: + - \f$ [0 \ldots 1] \f$ if the path is open. + - \f$ [0 \ldots 1) \f$ if the path is closed (because it wraps). + + @param state the given state. + */ float Normalize(float state); + /*! + @brief Compute the new point and the \f$\Delta\f$-state. + + Given a state and the mouse coords ray, computes the new + state point and return the \f$\Delta\f$-state. + The algoritm is linear in the node paths. + + @param state the given state. + @param ray the ray relative to mouse coords. + @param hit_point is set to the new state point. + @return the \f$\Delta\f$-state. + */ float HitPoint(float state, Ray3fN ray, Point3f &hit_point); + /*! + @brief Compute the verse to follow for slide nearer to a given point. + + Given the current state point, the point of previus and + next node and a reference point, compute the verse to + follow for the object to come closer to the reference point. + + @param reference_point + @param current_point + @param prev_point + @param next_point + @return -1, 0 or 1 if the verse is respectively towars the startpoint, null or towards the endpoint. + */ int Verse(Point3f reference_point,Point3f current_point,Point3f prev_point,Point3f next_point); - std::vector < Point3f > points; + /// The node vector. + std::vector < Point3f > points; + /// True if the path is closed, false otherwise. bool wrap; + /// The current state. float current_state; + /// The initial state. float initial_state; + /// The path length. float path_length; + /// The length of the shostest path segment float min_seg_length; + /// The point relative to the old state. Point3f old_hitpoint; - + /// current_state after an Undo() call. float undo_current_state; + /// old_hitpoint after an Undo() call. Point3f undo_old_hitpoint; }; // Area mode. -// The user can drag the object inside a planar area, defined by a polygon. -// the polygon can be non convex, and is specified with a vector of vertexes -// if the object's trajectory intersects some poligon side, it tries to slide -// around it, in a "rubber band flavoured" way. -// for the vertexes vector its calculated the plane of the polygon, and then -// every point in the vector is projected on this plane. -// the object is assumed to initially be on the same position of the first vertex. -// you can try to set the starting point calling SetStartNear(Point3f) -// the vector is assumed to be formed of NON collinear points -// the polygon is NOT assumed to have 0-length sides, so please DO NOT add -// a copy of the first point on the end of the vector... -// the vector passed to build the polygon is copied locally. +/*! + @brief The area constrained manipulator. + This manipulator moves the object inside a poligonal area. + + The user can drag the object inside a planar area, defined by a polygon. + The polygon can be non convex, and is specified with a vector of vertexes. + + If the object's trajectory intersects some poligon side, it tries to slide + around it, in a "rubber band flavoured" way. + + The object is assumed to initially be on the same position of the + first vertex. + + This is a \b stateful manipulator, result of the Apply function is + determined by the objects's position inside the area and + by the mouse coordinates. +*/ class AreaMode:public TrackMode { public: - AreaMode (const std::vector < Point3f > &pts) +/*! + @brief The constructor. + + From the given vector, is calculated the plane of the polygon, then + every point in the vector is projected on this plane. + + The vector passed to build the polygon is copied locally. + + @warning The vector is assumed to be formed of \b non collinear points. + @warning The polygon is \b not assumed to have 0-length sides, so please do not add a copy of the first point on the end of the vector. + + @param pts the vertexes vector. +*/ + AreaMode (const std::vector < Point3f > &pts) { Init(pts); assert(min_side_length > 0.0f); } + /*! + @brief Return this manipulator's name. + + @return the constant string "AreaMode" + */ const char *Name () { return "AreaMode"; }; + /*! + @brief Apply a translation, function of the user mouse drag action. + + The manipulated object is moved inside the poligon. + This function implements an algorithm that makes + the object try to slide around the polygon borders. + + @param trackball the manipulator manager. + @param new_point the new mouse pointer coordinate. + */ void Apply (Trackball * trackball, Point3f new_point); + /*! + @brief Render this manipulator. + + @param trackball the manipulator manager. + */ void Draw (Trackball * trackball); + /*! + @brief The begin action function. + + This function is to be called at the begin of an user action. + */ void SetAction (); + /*! + @brief The reset function. + + This function reset the object position to the initial point. + */ void Reset (); + /*! + @brief Try to set the inital point. + + This function try to set the starting point in the point + passed as parameter, if the point passed does not reside + in the area, the start is put in the closest point on it. + + @param p the point wished for the start. + @return the starting point in the area. + */ Point3f SetStartNear(Point3f p); + /*! + @brief The (non) avaibility to manipulator changes inside an action. + + This manipulator has an internal state and does not allow a + switch in the middle of a function. + + @return The costant boolean true. + */ bool isSticky(); + /*! + @brief The undo function. + + This function recreates the state present before the last Apply() call. + */ void Undo(); private: - void Init(const std::vector < Point3f > &pts); + /*! + @brief The data initializer. + + Initialize the internal state and checks params validity. + + @param pts The polygon vertexes. + */ + void Init(const std::vector < Point3f > &pts); + /*! + @brief Point in Polygon test. + + Checks if a given point relies inside the poligon area, + using the ray tracing algorithm, linear in the number + of vertexes. + + @param point The point to test. + @return true if the point is inside the polygon, false otherwise. + */ bool Inside(Point3f point); + /*! + @brief Try to move the object inside the polygon + + Given a point inside the area and a destination in the + poligon plane, try to move the point toward the destination, + sliding on any evenual border of the polygon. + The object can be imagined tied with a rubber attached to + destination, so it won't go back from it to slide around a border. + + The algorithm is quadratic in the number of vertexes + (worst case, really really unlikely). + + @param start the starting point assumed inside. + @param end the destination assumed in the plane. + @return the final move vector. + */ Point3f Move(Point3f start,Point3f end); - std::vector < Point3f > points; + /// The vertexes vector. + std::vector < Point3f > points; + /// True in time inteval between a call to SetAction () and a call to Apply() bool begin_action; + /// One of the two dimensions used during the point in polygon test. int first_coord_kept; + /// One of the two dimensions used during the point in polygon test. int second_coord_kept; + /// The length of the shortest border float min_side_length; + /// The current status. Point3f status; + /// The screen space differenve between the object and the cursor during an action. Point3f delta_mouse; + /// The old status. Point3f old_status; + /// The initial status. Point3f initial_status; - - Plane3f plane; + /// The polygon plane + Plane3f plane; + /// The rubberband handle (current destination in Move()) Point3f rubberband_handle ; - std::vector < Point3f > path; - + /// Current action's object trace + std::vector < Point3f > path; + /// begin_action after an Undo() call. bool undo_begin_action; + /// status after an Undo() call. Point3f undo_status; + /// delta_mouse after an Undo() call. Point3f undo_delta_mouse; + /// old_status after an Undo() call. Point3f undo_old_status; - Point3f undo_rubberband_handle ; + /// rubberband_handle after an Undo() call. + Point3f undo_rubberband_handle; + /// path endpoint after an Undo() call. unsigned int undo_path_index; };