include/views/SkView.h - skia - Git at Google


 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkView_DEFINED
 #define SkView_DEFINED

 #include "SkEventSink.h"
 #include "SkRect.h"
 #include "SkDOM.h"
 #include "SkTDict.h"
 #include "SkMatrix.h"
 #include "SkMetaData.h"

 class SkCanvas;
 class SkLayerView;

 /** \class SkView

     SkView is the base class for screen management. All widgets and controls inherit
     from SkView.
 */
 class SkView : public SkEventSink {
 public:
     enum Flag_Shift {
         kVisible_Shift,
         kEnabled_Shift,
         kFocusable_Shift,
         kFlexH_Shift,
         kFlexV_Shift,
         kNoClip_Shift,

         kFlagShiftCount
     };
     enum Flag_Mask {
         kVisible_Mask   = 1 << kVisible_Shift,      //!< set if the view is visible
         kEnabled_Mask   = 1 << kEnabled_Shift,      //!< set if the view is enabled
         kFocusable_Mask = 1 << kFocusable_Shift,    //!< set if the view can receive focus
         kFlexH_Mask     = 1 << kFlexH_Shift,        //!< set if the view's width is stretchable
         kFlexV_Mask     = 1 << kFlexV_Shift,        //!< set if the view's height is stretchable
         kNoClip_Mask    = 1 << kNoClip_Shift,        //!< set if the view is not clipped to its bounds

         kAllFlagMasks   = (uint32_t)(0 - 1) >> (32 - kFlagShiftCount)
     };

                 SkView(uint32_t flags = 0);
     virtual     ~SkView();

     /** Return the flags associated with the view
     */
     uint32_t    getFlags() const { return fFlags; }
     /** Set the flags associated with the view
     */
     void        setFlags(uint32_t flags);

     /** Helper that returns non-zero if the kVisible_Mask bit is set in the view's flags
     */
     int         isVisible() const { return fFlags & kVisible_Mask; }
     int         isEnabled() const { return fFlags & kEnabled_Mask; }
     int         isFocusable() const { return fFlags & kFocusable_Mask; }
     int         isClipToBounds() const { return !(fFlags & kNoClip_Mask); }
     /** Helper to set/clear the view's kVisible_Mask flag */
     void        setVisibleP(bool);
     void        setEnabledP(bool);
     void        setFocusableP(bool);
     void        setClipToBounds(bool);

     /** Return the view's width */
     SkScalar    width() const { return fWidth; }
     /** Return the view's height */
     SkScalar    height() const { return fHeight; }
     /** Set the view's width and height. These must both be >= 0. This does not affect the view's loc */
     void        setSize(SkScalar width, SkScalar height);
     void        setSize(const SkPoint& size) { this->setSize(size.fX, size.fY); }
     void        setWidth(SkScalar width) { this->setSize(width, fHeight); }
     void        setHeight(SkScalar height) { this->setSize(fWidth, height); }
     /** Return a rectangle set to [0, 0, width, height] */
     void        getLocalBounds(SkRect* bounds) const;

     /** Loc - the view's offset with respect to its parent in its view hiearchy.
         NOTE: For more complex transforms, use Local Matrix. The tranformations
         are applied in the following order:
              canvas->translate(fLoc.fX, fLoc.fY);
              canvas->concat(fMatrix);
     */
     /** Return the view's left edge */
     SkScalar    locX() const { return fLoc.fX; }
     /** Return the view's top edge */
     SkScalar    locY() const { return fLoc.fY; }
     /** Set the view's left and top edge. This does not affect the view's size */
     void        setLoc(SkScalar x, SkScalar y);
     void        setLoc(const SkPoint& loc) { this->setLoc(loc.fX, loc.fY); }
     void        setLocX(SkScalar x) { this->setLoc(x, fLoc.fY); }
     void        setLocY(SkScalar y) { this->setLoc(fLoc.fX, y); }

     /** Local Matrix - matrix used to tranform the view with respect to its
         parent in its view hiearchy. Use setLocalMatrix to apply matrix
         transformations to the current view and in turn affect its children.
         NOTE: For simple offsets, use Loc. The transformations are applied in
         the following order:
              canvas->translate(fLoc.fX, fLoc.fY);
              canvas->concat(fMatrix);
     */
     const SkMatrix& getLocalMatrix() const { return fMatrix; }
     void            setLocalMatrix(const SkMatrix& matrix);

     /** Offset (move) the view by the specified dx and dy. This does not affect the view's size */
     void        offset(SkScalar dx, SkScalar dy);

     /** Call this to have the view draw into the specified canvas. */
     virtual void draw(SkCanvas* canvas);

     /** Call this to invalidate part of all of a view, requesting that the view's
         draw method be called. The rectangle parameter specifies the part of the view
         that should be redrawn. If it is null, it specifies the entire view bounds.
     */
     void        inval(SkRect* rectOrNull);

     //  Focus management

     SkView* getFocusView() const;
     bool    hasFocus() const;

     enum FocusDirection {
         kNext_FocusDirection,
         kPrev_FocusDirection,

         kFocusDirectionCount
     };
     bool    acceptFocus();
     SkView* moveFocus(FocusDirection);

     //  Click handling

     class Click {
     public:
         Click(SkView* target);
         virtual ~Click();

         const char* getType() const { return fType; }
         bool        isType(const char type[]) const;
         void        setType(const char type[]);     // does NOT make a copy of the string
         void        copyType(const char type[]);    // makes a copy of the string

         enum State {
             kDown_State,
             kMoved_State,
             kUp_State
         };
         SkPoint     fOrig, fPrev, fCurr;
         SkIPoint    fIOrig, fIPrev, fICurr;
         State       fState;
         void*       fOwner;
         unsigned    fModifierKeys;

         SkMetaData  fMeta;
     private:
         SkEventSinkID   fTargetID;
         char*           fType;
         bool            fWeOwnTheType;

         void resetType();

         friend class SkView;
     };
     Click*  findClickHandler(SkScalar x, SkScalar y, unsigned modifierKeys);

     static void DoClickDown(Click*, int x, int y, unsigned modi);
     static void DoClickMoved(Click*, int x, int y, unsigned modi);
     static void DoClickUp(Click*, int x, int y, unsigned modi);

     /** Send the event to the view's parent, and its parent etc. until one of them
         returns true from its onEvent call. This view is returned. If no parent handles
         the event, null is returned.
      */
     SkView*     sendEventToParents(const SkEvent&);
     /** Send the query to the view's parent, and its parent etc. until one of them
         returns true from its onQuery call. This view is returned. If no parent handles
         the query, null is returned.
      */
     SkView* sendQueryToParents(SkEvent*);

     //  View hierarchy management

     /** Return the view's parent, or null if it has none. This does not affect the parent's reference count. */
     SkView*     getParent() const { return fParent; }
     SkView*     attachChildToFront(SkView* child);
     /** Attach the child view to this view, and increment the child's reference count. The child view is added
         such that it will be drawn before all other child views.
         The child view parameter is returned.
     */
     SkView*     attachChildToBack(SkView* child);
     /** If the view has a parent, detach the view from its parent and decrement the view's reference count.
         If the parent was the only owner of the view, this will cause the view to be deleted.
     */
     void        detachFromParent();
     /** Attach the child view to this view, and increment the child's reference count. The child view is added
         such that it will be drawn after all other child views.
         The child view parameter is returned.
     */
     /** Detach all child views from this view. */
     void        detachAllChildren();

     /** Convert the specified point from global coordinates into view-local coordinates
      *  Return true on success; false on failure
      */
     bool        globalToLocal(SkPoint* pt) const {
         if (NULL != pt) {
             return this->globalToLocal(pt->fX, pt->fY, pt);
         }
         return true;  // nothing to do so return true
     }
     /** Convert the specified x,y from global coordinates into view-local coordinates, returning
         the answer in the local parameter.
     */
     bool        globalToLocal(SkScalar globalX, SkScalar globalY, SkPoint* local) const;

     /** \class F2BIter

         Iterator that will return each of this view's children, in
         front-to-back order (the order used for clicking). The first
         call to next() returns the front-most child view. When
         next() returns null, there are no more child views.
     */
     class F2BIter {
     public:
         F2BIter(const SkView* parent);
         SkView* next();
     private:
         SkView* fFirstChild, *fChild;
     };

     /** \class B2FIter

         Iterator that will return each of this view's children, in
         back-to-front order (the order they are drawn). The first
         call to next() returns the back-most child view. When
         next() returns null, there are no more child views.
     */
     class B2FIter {
     public:
         B2FIter(const SkView* parent);
         SkView* next();
     private:
         SkView* fFirstChild, *fChild;
     };

     /** \class Artist

         Install a subclass of this in a view (calling setArtist()), and then the
         default implementation of that view's onDraw() will invoke this object
         automatically.
     */
     class Artist : public SkRefCnt {
     public:
         SK_DECLARE_INST_COUNT(Artist)

         void draw(SkView*, SkCanvas*);
         void inflate(const SkDOM&, const SkDOM::Node*);
     protected:
         virtual void onDraw(SkView*, SkCanvas*) = 0;
         virtual void onInflate(const SkDOM&, const SkDOM::Node*);
     private:
         typedef SkRefCnt INHERITED;
     };
     /** Return the artist attached to this view (or null). The artist's reference
         count is not affected.
     */
     Artist* getArtist() const;
     /** Attach the specified artist (or null) to the view, replacing any existing
         artist. If the new artist is not null, its reference count is incremented.
         The artist parameter is returned.
     */
     Artist* setArtist(Artist* artist);

     /** \class Layout

         Install a subclass of this in a view (calling setLayout()), and then the
         default implementation of that view's onLayoutChildren() will invoke
         this object automatically.
     */
     class Layout : public SkRefCnt {
     public:
         SK_DECLARE_INST_COUNT(Layout)

         void layoutChildren(SkView* parent);
         void inflate(const SkDOM&, const SkDOM::Node*);
     protected:
         virtual void onLayoutChildren(SkView* parent) = 0;
         virtual void onInflate(const SkDOM&, const SkDOM::Node*);
     private:
         typedef SkRefCnt INHERITED;
     };

     /** Return the layout attached to this view (or null). The layout's reference
         count is not affected.
     */
     Layout* getLayout() const;
     /** Attach the specified layout (or null) to the view, replacing any existing
         layout. If the new layout is not null, its reference count is incremented.
         The layout parameter is returned.
     */
     Layout* setLayout(Layout*, bool invokeLayoutNow = true);
     /** If a layout is attached to this view, call its layoutChildren() method
     */
     void    invokeLayout();

     /** Call this to initialize this view based on the specified XML node
     */
     void    inflate(const SkDOM& dom, const SkDOM::Node* node);
     /** After a view hierarchy is inflated, this may be called with a dictionary
         containing pairs of <name, view*>, where the name string was the view's
         "id" attribute when it was inflated.

         This will call the virtual onPostInflate for this view, and the recursively
         call postInflate on all of the view's children.
     */
     void    postInflate(const SkTDict<SkView*>& ids);

     SkDEBUGCODE(void dump(bool recurse) const;)

 protected:
     /** Override this to draw inside the view. Be sure to call the inherited version too */
     virtual void    onDraw(SkCanvas*);
     /** Override this to be notified when the view's size changes. Be sure to call the inherited version too */
     virtual void    onSizeChange();
     /** Override this if you want to handle an inval request from this view or one of its children.
         Tyically this is only overridden by the by the "window". If your subclass does handle the
         request, return true so the request will not continue to propogate to the parent.
     */
     virtual bool    handleInval(const SkRect*);
     //! called once before all of the children are drawn (or clipped/translated)
     virtual SkCanvas* beforeChildren(SkCanvas* c) { return c; }
     //! called once after all of the children are drawn (or clipped/translated)
     virtual void afterChildren(SkCanvas* orig) {}

     //! called right before this child's onDraw is called
     virtual void beforeChild(SkView* child, SkCanvas* canvas) {}
     //! called right after this child's onDraw is called
     virtual void afterChild(SkView* child, SkCanvas* canvas) {}

     /** Override this if you might handle the click
     */
     virtual Click* onFindClickHandler(SkScalar x, SkScalar y, unsigned modi);
     /** Override this to decide if your children are targets for a click.
         The default returns true, in which case your children views will be
         candidates for onFindClickHandler. Returning false wil skip the children
         and just call your onFindClickHandler.
      */
     virtual bool onSendClickToChildren(SkScalar x, SkScalar y, unsigned modi);
     /** Override this to track clicks, returning true as long as you want to track
         the pen/mouse.
     */
     virtual bool    onClick(Click*);
     /** Override this to initialize your subclass from the XML node. Be sure to call the inherited version too */
     virtual void    onInflate(const SkDOM& dom, const SkDOM::Node* node);
     /** Override this if you want to perform post initialization work based on the ID dictionary built
         during XML parsing. Be sure to call the inherited version too.
     */
     virtual void    onPostInflate(const SkTDict<SkView*>&);

 public:
 #ifdef SK_DEBUG
     void validate() const;
 #else
     void validate() const {}
 #endif
     // default action is to inval the view
     virtual void    onFocusChange(bool gainFocusP);

 protected:

     // override these if you're acting as a layer/host
     virtual bool    onGetFocusView(SkView**) const { return false; }
     virtual bool    onSetFocusView(SkView*) { return false; }

 private:
     SkScalar    fWidth, fHeight;
     SkMatrix    fMatrix;
     SkPoint     fLoc;
     SkView*     fParent;
     SkView*     fFirstChild;
     SkView*     fNextSibling;
     SkView*     fPrevSibling;
     uint8_t     fFlags;
     uint8_t     fContainsFocus;

     friend class B2FIter;
     friend class F2BIter;

     friend class SkLayerView;

     bool    setFocusView(SkView* fvOrNull);
     SkView* acceptFocus(FocusDirection);
     void    detachFromParent_NoLayout();
     /** Compute the matrix to transform view-local coordinates into global ones */
     void    localToGlobal(SkMatrix* matrix) const;
 };

 #endif

	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef SkView_DEFINED
	#define SkView_DEFINED

	#include "SkEventSink.h"
	#include "SkRect.h"
	#include "SkDOM.h"
	#include "SkTDict.h"
	#include "SkMatrix.h"
	#include "SkMetaData.h"

	class SkCanvas;
	class SkLayerView;

	/** \class SkView

	SkView is the base class for screen management. All widgets and controls inherit
	from SkView.
	*/
	class SkView : public SkEventSink {
	public:
	enum Flag_Shift {
	kVisible_Shift,
	kEnabled_Shift,
	kFocusable_Shift,
	kFlexH_Shift,
	kFlexV_Shift,
	kNoClip_Shift,

	kFlagShiftCount
	};
	enum Flag_Mask {
	kVisible_Mask = 1 << kVisible_Shift, //!< set if the view is visible
	kEnabled_Mask = 1 << kEnabled_Shift, //!< set if the view is enabled
	kFocusable_Mask = 1 << kFocusable_Shift, //!< set if the view can receive focus
	kFlexH_Mask = 1 << kFlexH_Shift, //!< set if the view's width is stretchable
	kFlexV_Mask = 1 << kFlexV_Shift, //!< set if the view's height is stretchable
	kNoClip_Mask = 1 << kNoClip_Shift, //!< set if the view is not clipped to its bounds

	kAllFlagMasks = (uint32_t)(0 - 1) >> (32 - kFlagShiftCount)
	};

	SkView(uint32_t flags = 0);
	virtual ~SkView();

	/** Return the flags associated with the view
	*/
	uint32_t getFlags() const { return fFlags; }
	/** Set the flags associated with the view
	*/
	void setFlags(uint32_t flags);

	/** Helper that returns non-zero if the kVisible_Mask bit is set in the view's flags
	*/
	int isVisible() const { return fFlags & kVisible_Mask; }
	int isEnabled() const { return fFlags & kEnabled_Mask; }
	int isFocusable() const { return fFlags & kFocusable_Mask; }
	int isClipToBounds() const { return !(fFlags & kNoClip_Mask); }
	/** Helper to set/clear the view's kVisible_Mask flag */
	void setVisibleP(bool);
	void setEnabledP(bool);
	void setFocusableP(bool);
	void setClipToBounds(bool);

	/** Return the view's width */
	SkScalar width() const { return fWidth; }
	/** Return the view's height */
	SkScalar height() const { return fHeight; }
	/** Set the view's width and height. These must both be >= 0. This does not affect the view's loc */
	void setSize(SkScalar width, SkScalar height);
	void setSize(const SkPoint& size) { this->setSize(size.fX, size.fY); }
	void setWidth(SkScalar width) { this->setSize(width, fHeight); }
	void setHeight(SkScalar height) { this->setSize(fWidth, height); }
	/** Return a rectangle set to [0, 0, width, height] */
	void getLocalBounds(SkRect* bounds) const;

	/** Loc - the view's offset with respect to its parent in its view hiearchy.
	NOTE: For more complex transforms, use Local Matrix. The tranformations
	are applied in the following order:
	canvas->translate(fLoc.fX, fLoc.fY);
	canvas->concat(fMatrix);
	*/
	/** Return the view's left edge */
	SkScalar locX() const { return fLoc.fX; }
	/** Return the view's top edge */
	SkScalar locY() const { return fLoc.fY; }
	/** Set the view's left and top edge. This does not affect the view's size */
	void setLoc(SkScalar x, SkScalar y);
	void setLoc(const SkPoint& loc) { this->setLoc(loc.fX, loc.fY); }
	void setLocX(SkScalar x) { this->setLoc(x, fLoc.fY); }
	void setLocY(SkScalar y) { this->setLoc(fLoc.fX, y); }

	/** Local Matrix - matrix used to tranform the view with respect to its
	parent in its view hiearchy. Use setLocalMatrix to apply matrix
	transformations to the current view and in turn affect its children.
	NOTE: For simple offsets, use Loc. The transformations are applied in
	the following order:
	canvas->translate(fLoc.fX, fLoc.fY);
	canvas->concat(fMatrix);
	*/
	const SkMatrix& getLocalMatrix() const { return fMatrix; }
	void setLocalMatrix(const SkMatrix& matrix);

	/** Offset (move) the view by the specified dx and dy. This does not affect the view's size */
	void offset(SkScalar dx, SkScalar dy);

	/** Call this to have the view draw into the specified canvas. */
	virtual void draw(SkCanvas* canvas);

	/** Call this to invalidate part of all of a view, requesting that the view's
	draw method be called. The rectangle parameter specifies the part of the view
	that should be redrawn. If it is null, it specifies the entire view bounds.
	*/
	void inval(SkRect* rectOrNull);

	// Focus management

	SkView* getFocusView() const;
	bool hasFocus() const;

	enum FocusDirection {
	kNext_FocusDirection,
	kPrev_FocusDirection,

	kFocusDirectionCount
	};
	bool acceptFocus();
	SkView* moveFocus(FocusDirection);

	// Click handling

	class Click {
	public:
	Click(SkView* target);
	virtual ~Click();

	const char* getType() const { return fType; }
	bool isType(const char type[]) const;
	void setType(const char type[]); // does NOT make a copy of the string
	void copyType(const char type[]); // makes a copy of the string

	enum State {
	kDown_State,
	kMoved_State,
	kUp_State
	};
	SkPoint fOrig, fPrev, fCurr;
	SkIPoint fIOrig, fIPrev, fICurr;
	State fState;
	void* fOwner;
	unsigned fModifierKeys;

	SkMetaData fMeta;
	private:
	SkEventSinkID fTargetID;
	char* fType;
	bool fWeOwnTheType;

	void resetType();

	friend class SkView;
	};
	Click* findClickHandler(SkScalar x, SkScalar y, unsigned modifierKeys);

	static void DoClickDown(Click*, int x, int y, unsigned modi);
	static void DoClickMoved(Click*, int x, int y, unsigned modi);
	static void DoClickUp(Click*, int x, int y, unsigned modi);

	/** Send the event to the view's parent, and its parent etc. until one of them
	returns true from its onEvent call. This view is returned. If no parent handles
	the event, null is returned.
	*/
	SkView* sendEventToParents(const SkEvent&);
	/** Send the query to the view's parent, and its parent etc. until one of them
	returns true from its onQuery call. This view is returned. If no parent handles
	the query, null is returned.
	*/
	SkView* sendQueryToParents(SkEvent*);

	// View hierarchy management

	/** Return the view's parent, or null if it has none. This does not affect the parent's reference count. */
	SkView* getParent() const { return fParent; }
	SkView* attachChildToFront(SkView* child);
	/** Attach the child view to this view, and increment the child's reference count. The child view is added
	such that it will be drawn before all other child views.
	The child view parameter is returned.
	*/
	SkView* attachChildToBack(SkView* child);
	/** If the view has a parent, detach the view from its parent and decrement the view's reference count.
	If the parent was the only owner of the view, this will cause the view to be deleted.
	*/
	void detachFromParent();
	/** Attach the child view to this view, and increment the child's reference count. The child view is added
	such that it will be drawn after all other child views.
	The child view parameter is returned.
	*/
	/** Detach all child views from this view. */
	void detachAllChildren();

	/** Convert the specified point from global coordinates into view-local coordinates
	* Return true on success; false on failure
	*/
	bool globalToLocal(SkPoint* pt) const {
	if (NULL != pt) {
	return this->globalToLocal(pt->fX, pt->fY, pt);
	}
	return true; // nothing to do so return true
	}
	/** Convert the specified x,y from global coordinates into view-local coordinates, returning
	the answer in the local parameter.
	*/
	bool globalToLocal(SkScalar globalX, SkScalar globalY, SkPoint* local) const;

	/** \class F2BIter

	Iterator that will return each of this view's children, in
	front-to-back order (the order used for clicking). The first
	call to next() returns the front-most child view. When
	next() returns null, there are no more child views.
	*/
	class F2BIter {
	public:
	F2BIter(const SkView* parent);
	SkView* next();
	private:
	SkView* fFirstChild, *fChild;
	};

	/** \class B2FIter

	Iterator that will return each of this view's children, in
	back-to-front order (the order they are drawn). The first
	call to next() returns the back-most child view. When
	next() returns null, there are no more child views.
	*/
	class B2FIter {
	public:
	B2FIter(const SkView* parent);
	SkView* next();
	private:
	SkView* fFirstChild, *fChild;
	};

	/** \class Artist

	Install a subclass of this in a view (calling setArtist()), and then the
	default implementation of that view's onDraw() will invoke this object
	automatically.
	*/
	class Artist : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(Artist)

	void draw(SkView, SkCanvas);
	void inflate(const SkDOM&, const SkDOM::Node*);
	protected:
	virtual void onDraw(SkView, SkCanvas) = 0;
	virtual void onInflate(const SkDOM&, const SkDOM::Node*);
	private:
	typedef SkRefCnt INHERITED;
	};
	/** Return the artist attached to this view (or null). The artist's reference
	count is not affected.
	*/
	Artist* getArtist() const;
	/** Attach the specified artist (or null) to the view, replacing any existing
	artist. If the new artist is not null, its reference count is incremented.
	The artist parameter is returned.
	*/
	Artist* setArtist(Artist* artist);

	/** \class Layout

	Install a subclass of this in a view (calling setLayout()), and then the
	default implementation of that view's onLayoutChildren() will invoke
	this object automatically.
	*/
	class Layout : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(Layout)

	void layoutChildren(SkView* parent);
	void inflate(const SkDOM&, const SkDOM::Node*);
	protected:
	virtual void onLayoutChildren(SkView* parent) = 0;
	virtual void onInflate(const SkDOM&, const SkDOM::Node*);
	private:
	typedef SkRefCnt INHERITED;
	};

	/** Return the layout attached to this view (or null). The layout's reference
	count is not affected.
	*/
	Layout* getLayout() const;
	/** Attach the specified layout (or null) to the view, replacing any existing
	layout. If the new layout is not null, its reference count is incremented.
	The layout parameter is returned.
	*/
	Layout* setLayout(Layout*, bool invokeLayoutNow = true);
	/** If a layout is attached to this view, call its layoutChildren() method
	*/
	void invokeLayout();

	/** Call this to initialize this view based on the specified XML node
	*/
	void inflate(const SkDOM& dom, const SkDOM::Node* node);
	/** After a view hierarchy is inflated, this may be called with a dictionary
	containing pairs of <name, view*>, where the name string was the view's
	"id" attribute when it was inflated.

	This will call the virtual onPostInflate for this view, and the recursively
	call postInflate on all of the view's children.
	*/
	void postInflate(const SkTDict<SkView*>& ids);

	SkDEBUGCODE(void dump(bool recurse) const;)

	protected:
	/** Override this to draw inside the view. Be sure to call the inherited version too */
	virtual void onDraw(SkCanvas*);
	/** Override this to be notified when the view's size changes. Be sure to call the inherited version too */
	virtual void onSizeChange();
	/** Override this if you want to handle an inval request from this view or one of its children.
	Tyically this is only overridden by the by the "window". If your subclass does handle the
	request, return true so the request will not continue to propogate to the parent.
	*/
	virtual bool handleInval(const SkRect*);
	//! called once before all of the children are drawn (or clipped/translated)
	virtual SkCanvas* beforeChildren(SkCanvas* c) { return c; }
	//! called once after all of the children are drawn (or clipped/translated)
	virtual void afterChildren(SkCanvas* orig) {}

	//! called right before this child's onDraw is called
	virtual void beforeChild(SkView* child, SkCanvas* canvas) {}
	//! called right after this child's onDraw is called
	virtual void afterChild(SkView* child, SkCanvas* canvas) {}

	/** Override this if you might handle the click
	*/
	virtual Click* onFindClickHandler(SkScalar x, SkScalar y, unsigned modi);
	/** Override this to decide if your children are targets for a click.
	The default returns true, in which case your children views will be
	candidates for onFindClickHandler. Returning false wil skip the children
	and just call your onFindClickHandler.
	*/
	virtual bool onSendClickToChildren(SkScalar x, SkScalar y, unsigned modi);
	/** Override this to track clicks, returning true as long as you want to track
	the pen/mouse.
	*/
	virtual bool onClick(Click*);
	/** Override this to initialize your subclass from the XML node. Be sure to call the inherited version too */
	virtual void onInflate(const SkDOM& dom, const SkDOM::Node* node);
	/** Override this if you want to perform post initialization work based on the ID dictionary built
	during XML parsing. Be sure to call the inherited version too.
	*/
	virtual void onPostInflate(const SkTDict<SkView*>&);

	public:
	#ifdef SK_DEBUG
	void validate() const;
	#else
	void validate() const {}
	#endif
	// default action is to inval the view
	virtual void onFocusChange(bool gainFocusP);

	protected:

	// override these if you're acting as a layer/host
	virtual bool onGetFocusView(SkView**) const { return false; }
	virtual bool onSetFocusView(SkView*) { return false; }

	private:
	SkScalar fWidth, fHeight;
	SkMatrix fMatrix;
	SkPoint fLoc;
	SkView* fParent;
	SkView* fFirstChild;
	SkView* fNextSibling;
	SkView* fPrevSibling;
	uint8_t fFlags;
	uint8_t fContainsFocus;

	friend class B2FIter;
	friend class F2BIter;

	friend class SkLayerView;

	bool setFocusView(SkView* fvOrNull);
	SkView* acceptFocus(FocusDirection);
	void detachFromParent_NoLayout();
	/** Compute the matrix to transform view-local coordinates into global ones */
	void localToGlobal(SkMatrix* matrix) const;
	};

	#endif