Source/WebCore/platform/ScrollView.h - platform/external/webkit - Git at Google

 /*
  * Copyright (C) 2004, 2006, 2007, 2008 Apple Inc. All rights reserved.
  * Copyright (C) 2009 Holger Hans Peter Freyther
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE COMPUTER, INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #ifndef ScrollView_h
 #define ScrollView_h

 #include "IntRect.h"
 #include "Scrollbar.h"
 #include "ScrollableArea.h"
 #include "ScrollTypes.h"
 #include "Widget.h"

 #include <wtf/HashSet.h>

 #if PLATFORM(MAC) && defined __OBJC__
 @protocol WebCoreFrameScrollView;
 #endif

 #if PLATFORM(GTK)
 #include "GRefPtrGtk.h"
 typedef struct _GtkAdjustment GtkAdjustment;
 #endif

 #if PLATFORM(WX)
 class wxScrollWinEvent;
 #endif

 namespace WebCore {

 class HostWindow;
 class Scrollbar;

 #if PLATFORM(ANDROID)
 class FrameView;
 #endif

 class ScrollView : public Widget, public ScrollableArea {
 public:
     ~ScrollView();

     // ScrollableArea functions.  FrameView overrides the others.
     virtual int scrollSize(ScrollbarOrientation orientation) const;
     virtual int scrollPosition(Scrollbar*) const;
     virtual void setScrollOffset(const IntPoint&);
     virtual void didCompleteRubberBand(const IntSize&) const;
     virtual void notifyPageThatContentAreaWillPaint() const;
     virtual bool isScrollCornerVisible() const;

     // NOTE: This should only be called by the overriden setScrollOffset from ScrollableArea.
     virtual void scrollTo(const IntSize& newOffset);

     // The window thats hosts the ScrollView. The ScrollView will communicate scrolls and repaints to the
     // host window in the window's coordinate space.
     virtual HostWindow* hostWindow() const = 0;

     // Returns a clip rect in host window coordinates. Used to clip the blit on a scroll.
     virtual IntRect windowClipRect(bool clipToContents = true) const = 0;

     // Functions for child manipulation and inspection.
     const HashSet<RefPtr<Widget> >* children() const { return &m_children; }
     void addChild(PassRefPtr<Widget>);
     void removeChild(Widget*);

     // If the scroll view does not use a native widget, then it will have cross-platform Scrollbars. These functions
     // can be used to obtain those scrollbars.
     virtual Scrollbar* horizontalScrollbar() const { return m_horizontalScrollbar.get(); }
     virtual Scrollbar* verticalScrollbar() const { return m_verticalScrollbar.get(); }
     bool isScrollViewScrollbar(const Widget* child) const { return horizontalScrollbar() == child || verticalScrollbar() == child; }

     void positionScrollbarLayers();

     // Functions for setting and retrieving the scrolling mode in each axis (horizontal/vertical). The mode has values of
     // AlwaysOff, AlwaysOn, and Auto. AlwaysOff means never show a scrollbar, AlwaysOn means always show a scrollbar.
     // Auto means show a scrollbar only when one is needed.
     // Note that for platforms with native widgets, these modes are considered advisory. In other words the underlying native
     // widget may choose not to honor the requested modes.
     void setScrollbarModes(ScrollbarMode horizontalMode, ScrollbarMode verticalMode, bool horizontalLock = false, bool verticalLock = false);
     void setHorizontalScrollbarMode(ScrollbarMode mode, bool lock = false) { setScrollbarModes(mode, verticalScrollbarMode(), lock, verticalScrollbarLock()); }
     void setVerticalScrollbarMode(ScrollbarMode mode, bool lock = false) { setScrollbarModes(horizontalScrollbarMode(), mode, horizontalScrollbarLock(), lock); };
     void scrollbarModes(ScrollbarMode& horizontalMode, ScrollbarMode& verticalMode) const;
     ScrollbarMode horizontalScrollbarMode() const { ScrollbarMode horizontal, vertical; scrollbarModes(horizontal, vertical); return horizontal; }
     ScrollbarMode verticalScrollbarMode() const { ScrollbarMode horizontal, vertical; scrollbarModes(horizontal, vertical); return vertical; }

     void setHorizontalScrollbarLock(bool lock = true) { m_horizontalScrollbarLock = lock; }
     bool horizontalScrollbarLock() const { return m_horizontalScrollbarLock; }
     void setVerticalScrollbarLock(bool lock = true) { m_verticalScrollbarLock = lock; }
     bool verticalScrollbarLock() const { return m_verticalScrollbarLock; }

     void setScrollingModesLock(bool lock = true) { m_horizontalScrollbarLock = m_verticalScrollbarLock = lock; }

     virtual void setCanHaveScrollbars(bool);
     bool canHaveScrollbars() const { return horizontalScrollbarMode() != ScrollbarAlwaysOff || verticalScrollbarMode() != ScrollbarAlwaysOff; }

     virtual bool avoidScrollbarCreation() const { return false; }

     // By default you only receive paint events for the area that is visible. In the case of using a
     // tiled backing store, this function can be set, so that the view paints the entire contents.
     bool paintsEntireContents() const { return m_paintsEntireContents; }
     void setPaintsEntireContents(bool);

     // By default, paint events are clipped to the visible area.  If set to
     // false, paint events are no longer clipped.  paintsEntireContents() implies !clipsRepaints().
     bool clipsRepaints() const { return m_clipsRepaints; }
     void setClipsRepaints(bool);

     // By default programmatic scrolling is handled by WebCore and not by the UI application.
     // In the case of using a tiled backing store, this mode can be set, so that the scroll requests
     // are delegated to the UI application.
     bool delegatesScrolling() const { return m_delegatesScrolling; }
     void setDelegatesScrolling(bool);

     // Overridden by FrameView to create custom CSS scrollbars if applicable.
     virtual PassRefPtr<Scrollbar> createScrollbar(ScrollbarOrientation);

     // If the prohibits scrolling flag is set, then all scrolling in the view (even programmatic scrolling) is turned off.
     void setProhibitsScrolling(bool b) { m_prohibitsScrolling = b; }
     bool prohibitsScrolling() const { return m_prohibitsScrolling; }

     // Whether or not a scroll view will blit visible contents when it is scrolled. Blitting is disabled in situations
     // where it would cause rendering glitches (such as with fixed backgrounds or when the view is partially transparent).
     void setCanBlitOnScroll(bool);
     bool canBlitOnScroll() const;

     // The visible content rect has a location that is the scrolled offset of the document. The width and height are the viewport width
     // and height. By default the scrollbars themselves are excluded from this rectangle, but an optional boolean argument allows them to be
     // included.
     // In the situation the client is responsible for the scrolling (ie. with a tiled backing store) it is possible to use
     // the actualVisibleContentRect instead, though this must be updated manually, e.g after panning ends.
     IntRect visibleContentRect(bool includeScrollbars = false) const;
     IntRect actualVisibleContentRect() const { return m_actualVisibleContentRect.isEmpty() ? visibleContentRect() : m_actualVisibleContentRect; }
     void setActualVisibleContentRect(const IntRect& actualVisibleContentRect) { m_actualVisibleContentRect = actualVisibleContentRect; }
     int visibleWidth() const { return visibleContentRect().width(); }
     int visibleHeight() const { return visibleContentRect().height(); }

     // Functions for getting/setting the size webkit should use to layout the contents. By default this is the same as the visible
     // content size. Explicitly setting a layout size value will cause webkit to layout the contents using this size instead.
     int layoutWidth() const;
     int layoutHeight() const;
     IntSize fixedLayoutSize() const;
     void setFixedLayoutSize(const IntSize&);
     bool useFixedLayout() const;
     void setUseFixedLayout(bool enable);

     // Functions for getting/setting the size of the document contained inside the ScrollView (as an IntSize or as individual width and height
     // values).
     IntSize contentsSize() const; // Always at least as big as the visibleWidth()/visibleHeight().
     int contentsWidth() const { return contentsSize().width(); }
     int contentsHeight() const { return contentsSize().height(); }
     virtual void setContentsSize(const IntSize&);

 #if PLATFORM(ANDROID)
     int actualWidth() const;
     int actualHeight() const;
     int actualScrollX() const;
     int actualScrollY() const;
     FrameView* frameView();
 #endif

     // Functions for querying the current scrolled position (both as a point, a size, or as individual X and Y values).
     IntPoint scrollPosition() const { return visibleContentRect().location(); }
     IntSize scrollOffset() const { return visibleContentRect().location() - IntPoint(); } // Gets the scrolled position as an IntSize. Convenient for adding to other sizes.
     IntPoint maximumScrollPosition() const; // The maximum position we can be scrolled to.
     IntPoint minimumScrollPosition() const; // The minimum position we can be scrolled to.
     // Adjust the passed in scroll position to keep it between the minimum and maximum positions.
     IntPoint adjustScrollPositionWithinRange(const IntPoint&) const;
     int scrollX() const { return scrollPosition().x(); }
     int scrollY() const { return scrollPosition().y(); }

     IntSize overhangAmount() const;

     void cacheCurrentScrollPosition() { m_cachedScrollPosition = scrollPosition(); }
     IntPoint cachedScrollPosition() const { return m_cachedScrollPosition; }

     // Functions for scrolling the view.
     void setScrollPosition(const IntPoint&);
     void scrollBy(const IntSize& s) { return setScrollPosition(scrollPosition() + s); }

     // This function scrolls by lines, pages or pixels.
     bool scroll(ScrollDirection, ScrollGranularity);

     // A logical scroll that just ends up calling the corresponding physical scroll() based off the document's writing mode.
     bool logicalScroll(ScrollLogicalDirection, ScrollGranularity);

     // Scroll the actual contents of the view (either blitting or invalidating as needed).
     void scrollContents(const IntSize& scrollDelta);

     // This gives us a means of blocking painting on our scrollbars until the first layout has occurred.
     void setScrollbarsSuppressed(bool suppressed, bool repaintOnUnsuppress = false);
     bool scrollbarsSuppressed() const { return m_scrollbarsSuppressed; }

     // Event coordinates are assumed to be in the coordinate space of a window that contains
     // the entire widget hierarchy. It is up to the platform to decide what the precise definition
     // of containing window is. (For example on Mac it is the containing NSWindow.)
     IntPoint windowToContents(const IntPoint&) const;
     IntPoint contentsToWindow(const IntPoint&) const;
     IntRect windowToContents(const IntRect&) const;
     IntRect contentsToWindow(const IntRect&) const;

     // Functions for converting to and from screen coordinates.
     IntRect contentsToScreen(const IntRect&) const;
     IntPoint screenToContents(const IntPoint&) const;

     // The purpose of this function is to answer whether or not the scroll view is currently visible. Animations and painting updates can be suspended if
     // we know that we are either not in a window right now or if that window is not visible.
     bool isOffscreen() const;

     // These functions are used to enable scrollbars to avoid window resizer controls that overlap the scroll view. This happens on Mac
     // for example.
     virtual IntRect windowResizerRect() const { return IntRect(); }
     bool containsScrollbarsAvoidingResizer() const;
     void adjustScrollbarsAvoidingResizerCount(int overlapDelta);
     void windowResizerRectChanged();

     virtual void setParent(ScrollView*); // Overridden to update the overlapping scrollbar count.

     // Called when our frame rect changes (or the rect/scroll position of an ancestor changes).
     virtual void frameRectsChanged();

     // Widget override to update our scrollbars and notify our contents of the resize.
     virtual void setFrameRect(const IntRect&);
     virtual void setBoundsSize(const IntSize&);

     // For platforms that need to hit test scrollbars from within the engine's event handlers (like Win32).
     Scrollbar* scrollbarAtPoint(const IntPoint& windowPoint);

     // This function exists for scrollviews that need to handle wheel events manually.
     // On Mac the underlying NSScrollView just does the scrolling, but on other platforms
     // (like Windows), we need this function in order to do the scroll ourselves.
     void wheelEvent(PlatformWheelEvent&);
 #if ENABLE(GESTURE_EVENTS)
     void gestureEvent(const PlatformGestureEvent&);
 #endif

     IntPoint convertChildToSelf(const Widget* child, const IntPoint& point) const
     {
         IntPoint newPoint = point;
         if (!isScrollViewScrollbar(child))
             newPoint = point - scrollOffset();
         newPoint.move(child->x(), child->y());
         return newPoint;
     }

     IntPoint convertSelfToChild(const Widget* child, const IntPoint& point) const
     {
         IntPoint newPoint = point;
         if (!isScrollViewScrollbar(child))
             newPoint = point + scrollOffset();
         newPoint.move(-child->x(), -child->y());
         return newPoint;
     }

     // Widget override. Handles painting of the contents of the view as well as the scrollbars.
     virtual void paint(GraphicsContext*, const IntRect&);
     void paintScrollbars(GraphicsContext*, const IntRect&);

     // Widget overrides to ensure that our children's visibility status is kept up to date when we get shown and hidden.
     virtual void show();
     virtual void hide();
     virtual void setParentVisible(bool);

     // Pan scrolling.
     static const int noPanScrollRadius = 15;
     void addPanScrollIcon(const IntPoint&);
     void removePanScrollIcon();
     void paintPanScrollIcon(GraphicsContext*);

     virtual bool isPointInScrollbarCorner(const IntPoint&);
     virtual bool scrollbarCornerPresent() const;
     virtual IntRect scrollCornerRect() const;
     virtual void paintScrollCorner(GraphicsContext*, const IntRect& cornerRect);

     virtual IntRect convertFromScrollbarToContainingView(const Scrollbar*, const IntRect&) const;
     virtual IntRect convertFromContainingViewToScrollbar(const Scrollbar*, const IntRect&) const;
     virtual IntPoint convertFromScrollbarToContainingView(const Scrollbar*, const IntPoint&) const;
     virtual IntPoint convertFromContainingViewToScrollbar(const Scrollbar*, const IntPoint&) const;

     bool containsScrollableAreaWithOverlayScrollbars() const { return m_containsScrollableAreaWithOverlayScrollbars; }
     void setContainsScrollableAreaWithOverlayScrollbars(bool contains) { m_containsScrollableAreaWithOverlayScrollbars = contains; }

 protected:
     ScrollView();

     virtual void repaintContentRectangle(const IntRect&, bool now = false);
     virtual void paintContents(GraphicsContext*, const IntRect& damageRect) = 0;

     void calculateOverhangAreasForPainting(IntRect& horizontalOverhangRect, IntRect& verticalOverhangRect);
     virtual void paintOverhangAreas(GraphicsContext*, const IntRect& horizontalOverhangArea, const IntRect& verticalOverhangArea, const IntRect& dirtyRect);

     virtual void contentsResized() = 0;
     virtual void visibleContentsResized() = 0;

     IntSize boundsSize() const { return m_boundsSize; }
     void setInitialBoundsSize(const IntSize&);

     // These functions are used to create/destroy scrollbars.
     void setHasHorizontalScrollbar(bool);
     void setHasVerticalScrollbar(bool);

     virtual void updateScrollCorner();
     virtual void invalidateScrollCornerRect(const IntRect&);

     // Scroll the content by blitting the pixels.
     virtual bool scrollContentsFastPath(const IntSize& scrollDelta, const IntRect& rectToScroll, const IntRect& clipRect);
     // Scroll the content by invalidating everything.
     virtual void scrollContentsSlowPath(const IntRect& updateRect);

     void setScrollOrigin(const IntPoint&, bool updatePositionAtAll, bool updatePositionSynchronously);
     IntPoint scrollOrigin() { return m_scrollOrigin; }

     // Subclassed by FrameView to check the writing-mode of the document.
     virtual bool isVerticalDocument() const { return true; }
     virtual bool isFlippedDocument() const { return false; }

 private:
     RefPtr<Scrollbar> m_horizontalScrollbar;
     RefPtr<Scrollbar> m_verticalScrollbar;
     ScrollbarMode m_horizontalScrollbarMode;
     ScrollbarMode m_verticalScrollbarMode;

     bool m_horizontalScrollbarLock;
     bool m_verticalScrollbarLock;

     bool m_prohibitsScrolling;

     HashSet<RefPtr<Widget> > m_children;

     // This bool is unused on Mac OS because we directly ask the platform widget
     // whether it is safe to blit on scroll.
     bool m_canBlitOnScroll;

     IntRect m_actualVisibleContentRect;
     IntSize m_scrollOffset; // FIXME: Would rather store this as a position, but we will wait to make this change until more code is shared.
     IntPoint m_cachedScrollPosition;
     IntSize m_fixedLayoutSize;
     IntSize m_contentsSize;

     int m_scrollbarsAvoidingResizer;
     bool m_scrollbarsSuppressed;

     bool m_inUpdateScrollbars;
     unsigned m_updateScrollbarsPass;

     IntPoint m_panScrollIconPoint;
     bool m_drawPanScrollIcon;
     bool m_useFixedLayout;

     bool m_paintsEntireContents;
     bool m_clipsRepaints;
     bool m_delegatesScrolling;

     bool m_containsScrollableAreaWithOverlayScrollbars;

     IntSize m_boundsSize;

     void init();
     void destroy();

     // Called to update the scrollbars to accurately reflect the state of the view.
     void updateScrollbars(const IntSize& desiredOffset);

     // Called when the scroll position within this view changes.  FrameView overrides this to generate repaint invalidations.
     virtual void repaintFixedElementsAfterScrolling() {}

     void platformInit();
     void platformDestroy();
     void platformAddChild(Widget*);
     void platformRemoveChild(Widget*);
     void platformSetScrollbarModes();
     void platformScrollbarModes(ScrollbarMode& horizontal, ScrollbarMode& vertical) const;
     void platformSetCanBlitOnScroll(bool);
     bool platformCanBlitOnScroll() const;
     IntRect platformVisibleContentRect(bool includeScrollbars) const;
     IntSize platformContentsSize() const;
     void platformSetContentsSize();
     IntRect platformContentsToScreen(const IntRect&) const;
     IntPoint platformScreenToContents(const IntPoint&) const;
     void platformSetScrollPosition(const IntPoint&);
     bool platformScroll(ScrollDirection, ScrollGranularity);
     void platformSetScrollbarsSuppressed(bool repaintOnUnsuppress);
     void platformRepaintContentRectangle(const IntRect&, bool now);
     bool platformIsOffscreen() const;

     void platformSetScrollOrigin(const IntPoint&, bool updatePositionAtAll, bool updatePositionSynchronously);

 #if PLATFORM(ANDROID)
     int platformActualWidth() const;
     int platformActualHeight() const;
     int platformActualScrollX() const;
     int platformActualScrollY() const;
 #endif

 #if PLATFORM(MAC) && defined __OBJC__
 public:
     NSView* documentView() const;

 private:
     NSScrollView<WebCoreFrameScrollView>* scrollView() const;
 #endif

 #if PLATFORM(GTK)
 public:
     void setGtkAdjustments(GtkAdjustment* hadj, GtkAdjustment* vadj, bool resetValues = true);
     void setHorizontalAdjustment(GtkAdjustment* hadj, bool resetValues = true);
     void setVerticalAdjustment(GtkAdjustment* vadj, bool resetValues = true);
     void setScrollOffset(const IntSize& offset) { m_scrollOffset = offset; }

 private:
     GRefPtr<GtkAdjustment> m_horizontalAdjustment;
     GRefPtr<GtkAdjustment> m_verticalAdjustment;
 #endif

 #if PLATFORM(WX)
 public:
     virtual void setPlatformWidget(wxWindow*);
     void adjustScrollbars(int x = -1, int y = -1, bool refresh = true);
 private:
     class ScrollViewPrivate;
     ScrollViewPrivate* m_data;
 #endif

 #ifdef ANDROID_CAPTURE_OFFSCREEN_PAINTS
 public:
     // capture parts of rect not contained by vis
     void platformOffscreenContentRectangle(const IntRect& vis,
         const IntRect& rect);
 #endif
 }; // class ScrollView

 } // namespace WebCore

 #endif // ScrollView_h
	/*
	* Copyright (C) 2004, 2006, 2007, 2008 Apple Inc. All rights reserved.
	* Copyright (C) 2009 Holger Hans Peter Freyther
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#ifndef ScrollView_h
	#define ScrollView_h

	#include "IntRect.h"
	#include "Scrollbar.h"
	#include "ScrollableArea.h"
	#include "ScrollTypes.h"
	#include "Widget.h"

	#include <wtf/HashSet.h>

	#if PLATFORM(MAC) && defined __OBJC__
	@protocol WebCoreFrameScrollView;
	#endif

	#if PLATFORM(GTK)
	#include "GRefPtrGtk.h"
	typedef struct _GtkAdjustment GtkAdjustment;
	#endif

	#if PLATFORM(WX)
	class wxScrollWinEvent;
	#endif

	namespace WebCore {

	class HostWindow;
	class Scrollbar;

	#if PLATFORM(ANDROID)
	class FrameView;
	#endif

	class ScrollView : public Widget, public ScrollableArea {
	public:
	~ScrollView();

	// ScrollableArea functions. FrameView overrides the others.
	virtual int scrollSize(ScrollbarOrientation orientation) const;
	virtual int scrollPosition(Scrollbar*) const;
	virtual void setScrollOffset(const IntPoint&);
	virtual void didCompleteRubberBand(const IntSize&) const;
	virtual void notifyPageThatContentAreaWillPaint() const;
	virtual bool isScrollCornerVisible() const;

	// NOTE: This should only be called by the overriden setScrollOffset from ScrollableArea.
	virtual void scrollTo(const IntSize& newOffset);

	// The window thats hosts the ScrollView. The ScrollView will communicate scrolls and repaints to the
	// host window in the window's coordinate space.
	virtual HostWindow* hostWindow() const = 0;

	// Returns a clip rect in host window coordinates. Used to clip the blit on a scroll.
	virtual IntRect windowClipRect(bool clipToContents = true) const = 0;

	// Functions for child manipulation and inspection.
	const HashSet<RefPtr<Widget> >* children() const { return &m_children; }
	void addChild(PassRefPtr<Widget>);
	void removeChild(Widget*);

	// If the scroll view does not use a native widget, then it will have cross-platform Scrollbars. These functions
	// can be used to obtain those scrollbars.
	virtual Scrollbar* horizontalScrollbar() const { return m_horizontalScrollbar.get(); }
	virtual Scrollbar* verticalScrollbar() const { return m_verticalScrollbar.get(); }
	bool isScrollViewScrollbar(const Widget* child) const { return horizontalScrollbar() == child \|\| verticalScrollbar() == child; }

	void positionScrollbarLayers();

	// Functions for setting and retrieving the scrolling mode in each axis (horizontal/vertical). The mode has values of
	// AlwaysOff, AlwaysOn, and Auto. AlwaysOff means never show a scrollbar, AlwaysOn means always show a scrollbar.
	// Auto means show a scrollbar only when one is needed.
	// Note that for platforms with native widgets, these modes are considered advisory. In other words the underlying native
	// widget may choose not to honor the requested modes.
	void setScrollbarModes(ScrollbarMode horizontalMode, ScrollbarMode verticalMode, bool horizontalLock = false, bool verticalLock = false);
	void setHorizontalScrollbarMode(ScrollbarMode mode, bool lock = false) { setScrollbarModes(mode, verticalScrollbarMode(), lock, verticalScrollbarLock()); }
	void setVerticalScrollbarMode(ScrollbarMode mode, bool lock = false) { setScrollbarModes(horizontalScrollbarMode(), mode, horizontalScrollbarLock(), lock); };
	void scrollbarModes(ScrollbarMode& horizontalMode, ScrollbarMode& verticalMode) const;
	ScrollbarMode horizontalScrollbarMode() const { ScrollbarMode horizontal, vertical; scrollbarModes(horizontal, vertical); return horizontal; }
	ScrollbarMode verticalScrollbarMode() const { ScrollbarMode horizontal, vertical; scrollbarModes(horizontal, vertical); return vertical; }

	void setHorizontalScrollbarLock(bool lock = true) { m_horizontalScrollbarLock = lock; }
	bool horizontalScrollbarLock() const { return m_horizontalScrollbarLock; }
	void setVerticalScrollbarLock(bool lock = true) { m_verticalScrollbarLock = lock; }
	bool verticalScrollbarLock() const { return m_verticalScrollbarLock; }

	void setScrollingModesLock(bool lock = true) { m_horizontalScrollbarLock = m_verticalScrollbarLock = lock; }

	virtual void setCanHaveScrollbars(bool);
	bool canHaveScrollbars() const { return horizontalScrollbarMode() != ScrollbarAlwaysOff \|\| verticalScrollbarMode() != ScrollbarAlwaysOff; }

	virtual bool avoidScrollbarCreation() const { return false; }

	// By default you only receive paint events for the area that is visible. In the case of using a
	// tiled backing store, this function can be set, so that the view paints the entire contents.
	bool paintsEntireContents() const { return m_paintsEntireContents; }
	void setPaintsEntireContents(bool);

	// By default, paint events are clipped to the visible area. If set to
	// false, paint events are no longer clipped. paintsEntireContents() implies !clipsRepaints().
	bool clipsRepaints() const { return m_clipsRepaints; }
	void setClipsRepaints(bool);

	// By default programmatic scrolling is handled by WebCore and not by the UI application.
	// In the case of using a tiled backing store, this mode can be set, so that the scroll requests
	// are delegated to the UI application.
	bool delegatesScrolling() const { return m_delegatesScrolling; }
	void setDelegatesScrolling(bool);

	// Overridden by FrameView to create custom CSS scrollbars if applicable.
	virtual PassRefPtr<Scrollbar> createScrollbar(ScrollbarOrientation);

	// If the prohibits scrolling flag is set, then all scrolling in the view (even programmatic scrolling) is turned off.
	void setProhibitsScrolling(bool b) { m_prohibitsScrolling = b; }
	bool prohibitsScrolling() const { return m_prohibitsScrolling; }

	// Whether or not a scroll view will blit visible contents when it is scrolled. Blitting is disabled in situations
	// where it would cause rendering glitches (such as with fixed backgrounds or when the view is partially transparent).
	void setCanBlitOnScroll(bool);
	bool canBlitOnScroll() const;

	// The visible content rect has a location that is the scrolled offset of the document. The width and height are the viewport width
	// and height. By default the scrollbars themselves are excluded from this rectangle, but an optional boolean argument allows them to be
	// included.
	// In the situation the client is responsible for the scrolling (ie. with a tiled backing store) it is possible to use
	// the actualVisibleContentRect instead, though this must be updated manually, e.g after panning ends.
	IntRect visibleContentRect(bool includeScrollbars = false) const;
	IntRect actualVisibleContentRect() const { return m_actualVisibleContentRect.isEmpty() ? visibleContentRect() : m_actualVisibleContentRect; }
	void setActualVisibleContentRect(const IntRect& actualVisibleContentRect) { m_actualVisibleContentRect = actualVisibleContentRect; }
	int visibleWidth() const { return visibleContentRect().width(); }
	int visibleHeight() const { return visibleContentRect().height(); }

	// Functions for getting/setting the size webkit should use to layout the contents. By default this is the same as the visible
	// content size. Explicitly setting a layout size value will cause webkit to layout the contents using this size instead.
	int layoutWidth() const;
	int layoutHeight() const;
	IntSize fixedLayoutSize() const;
	void setFixedLayoutSize(const IntSize&);
	bool useFixedLayout() const;
	void setUseFixedLayout(bool enable);

	// Functions for getting/setting the size of the document contained inside the ScrollView (as an IntSize or as individual width and height
	// values).
	IntSize contentsSize() const; // Always at least as big as the visibleWidth()/visibleHeight().
	int contentsWidth() const { return contentsSize().width(); }
	int contentsHeight() const { return contentsSize().height(); }
	virtual void setContentsSize(const IntSize&);

	#if PLATFORM(ANDROID)
	int actualWidth() const;
	int actualHeight() const;
	int actualScrollX() const;
	int actualScrollY() const;
	FrameView* frameView();
	#endif

	// Functions for querying the current scrolled position (both as a point, a size, or as individual X and Y values).
	IntPoint scrollPosition() const { return visibleContentRect().location(); }
	IntSize scrollOffset() const { return visibleContentRect().location() - IntPoint(); } // Gets the scrolled position as an IntSize. Convenient for adding to other sizes.
	IntPoint maximumScrollPosition() const; // The maximum position we can be scrolled to.
	IntPoint minimumScrollPosition() const; // The minimum position we can be scrolled to.
	// Adjust the passed in scroll position to keep it between the minimum and maximum positions.
	IntPoint adjustScrollPositionWithinRange(const IntPoint&) const;
	int scrollX() const { return scrollPosition().x(); }
	int scrollY() const { return scrollPosition().y(); }

	IntSize overhangAmount() const;

	void cacheCurrentScrollPosition() { m_cachedScrollPosition = scrollPosition(); }
	IntPoint cachedScrollPosition() const { return m_cachedScrollPosition; }

	// Functions for scrolling the view.
	void setScrollPosition(const IntPoint&);
	void scrollBy(const IntSize& s) { return setScrollPosition(scrollPosition() + s); }

	// This function scrolls by lines, pages or pixels.
	bool scroll(ScrollDirection, ScrollGranularity);

	// A logical scroll that just ends up calling the corresponding physical scroll() based off the document's writing mode.
	bool logicalScroll(ScrollLogicalDirection, ScrollGranularity);

	// Scroll the actual contents of the view (either blitting or invalidating as needed).
	void scrollContents(const IntSize& scrollDelta);

	// This gives us a means of blocking painting on our scrollbars until the first layout has occurred.
	void setScrollbarsSuppressed(bool suppressed, bool repaintOnUnsuppress = false);
	bool scrollbarsSuppressed() const { return m_scrollbarsSuppressed; }

	// Event coordinates are assumed to be in the coordinate space of a window that contains
	// the entire widget hierarchy. It is up to the platform to decide what the precise definition
	// of containing window is. (For example on Mac it is the containing NSWindow.)
	IntPoint windowToContents(const IntPoint&) const;
	IntPoint contentsToWindow(const IntPoint&) const;
	IntRect windowToContents(const IntRect&) const;
	IntRect contentsToWindow(const IntRect&) const;

	// Functions for converting to and from screen coordinates.
	IntRect contentsToScreen(const IntRect&) const;
	IntPoint screenToContents(const IntPoint&) const;

	// The purpose of this function is to answer whether or not the scroll view is currently visible. Animations and painting updates can be suspended if
	// we know that we are either not in a window right now or if that window is not visible.
	bool isOffscreen() const;

	// These functions are used to enable scrollbars to avoid window resizer controls that overlap the scroll view. This happens on Mac
	// for example.
	virtual IntRect windowResizerRect() const { return IntRect(); }
	bool containsScrollbarsAvoidingResizer() const;
	void adjustScrollbarsAvoidingResizerCount(int overlapDelta);
	void windowResizerRectChanged();

	virtual void setParent(ScrollView*); // Overridden to update the overlapping scrollbar count.

	// Called when our frame rect changes (or the rect/scroll position of an ancestor changes).
	virtual void frameRectsChanged();

	// Widget override to update our scrollbars and notify our contents of the resize.
	virtual void setFrameRect(const IntRect&);
	virtual void setBoundsSize(const IntSize&);

	// For platforms that need to hit test scrollbars from within the engine's event handlers (like Win32).
	Scrollbar* scrollbarAtPoint(const IntPoint& windowPoint);

	// This function exists for scrollviews that need to handle wheel events manually.
	// On Mac the underlying NSScrollView just does the scrolling, but on other platforms
	// (like Windows), we need this function in order to do the scroll ourselves.
	void wheelEvent(PlatformWheelEvent&);
	#if ENABLE(GESTURE_EVENTS)
	void gestureEvent(const PlatformGestureEvent&);
	#endif

	IntPoint convertChildToSelf(const Widget* child, const IntPoint& point) const
	{
	IntPoint newPoint = point;
	if (!isScrollViewScrollbar(child))
	newPoint = point - scrollOffset();
	newPoint.move(child->x(), child->y());
	return newPoint;
	}

	IntPoint convertSelfToChild(const Widget* child, const IntPoint& point) const
	{
	IntPoint newPoint = point;
	if (!isScrollViewScrollbar(child))
	newPoint = point + scrollOffset();
	newPoint.move(-child->x(), -child->y());
	return newPoint;
	}

	// Widget override. Handles painting of the contents of the view as well as the scrollbars.
	virtual void paint(GraphicsContext*, const IntRect&);
	void paintScrollbars(GraphicsContext*, const IntRect&);

	// Widget overrides to ensure that our children's visibility status is kept up to date when we get shown and hidden.
	virtual void show();
	virtual void hide();
	virtual void setParentVisible(bool);

	// Pan scrolling.
	static const int noPanScrollRadius = 15;
	void addPanScrollIcon(const IntPoint&);
	void removePanScrollIcon();
	void paintPanScrollIcon(GraphicsContext*);

	virtual bool isPointInScrollbarCorner(const IntPoint&);
	virtual bool scrollbarCornerPresent() const;
	virtual IntRect scrollCornerRect() const;
	virtual void paintScrollCorner(GraphicsContext*, const IntRect& cornerRect);

	virtual IntRect convertFromScrollbarToContainingView(const Scrollbar*, const IntRect&) const;
	virtual IntRect convertFromContainingViewToScrollbar(const Scrollbar*, const IntRect&) const;
	virtual IntPoint convertFromScrollbarToContainingView(const Scrollbar*, const IntPoint&) const;
	virtual IntPoint convertFromContainingViewToScrollbar(const Scrollbar*, const IntPoint&) const;

	bool containsScrollableAreaWithOverlayScrollbars() const { return m_containsScrollableAreaWithOverlayScrollbars; }
	void setContainsScrollableAreaWithOverlayScrollbars(bool contains) { m_containsScrollableAreaWithOverlayScrollbars = contains; }

	protected:
	ScrollView();

	virtual void repaintContentRectangle(const IntRect&, bool now = false);
	virtual void paintContents(GraphicsContext*, const IntRect& damageRect) = 0;

	void calculateOverhangAreasForPainting(IntRect& horizontalOverhangRect, IntRect& verticalOverhangRect);
	virtual void paintOverhangAreas(GraphicsContext*, const IntRect& horizontalOverhangArea, const IntRect& verticalOverhangArea, const IntRect& dirtyRect);

	virtual void contentsResized() = 0;
	virtual void visibleContentsResized() = 0;

	IntSize boundsSize() const { return m_boundsSize; }
	void setInitialBoundsSize(const IntSize&);

	// These functions are used to create/destroy scrollbars.
	void setHasHorizontalScrollbar(bool);
	void setHasVerticalScrollbar(bool);

	virtual void updateScrollCorner();
	virtual void invalidateScrollCornerRect(const IntRect&);

	// Scroll the content by blitting the pixels.
	virtual bool scrollContentsFastPath(const IntSize& scrollDelta, const IntRect& rectToScroll, const IntRect& clipRect);
	// Scroll the content by invalidating everything.
	virtual void scrollContentsSlowPath(const IntRect& updateRect);

	void setScrollOrigin(const IntPoint&, bool updatePositionAtAll, bool updatePositionSynchronously);
	IntPoint scrollOrigin() { return m_scrollOrigin; }

	// Subclassed by FrameView to check the writing-mode of the document.
	virtual bool isVerticalDocument() const { return true; }
	virtual bool isFlippedDocument() const { return false; }

	private:
	RefPtr<Scrollbar> m_horizontalScrollbar;
	RefPtr<Scrollbar> m_verticalScrollbar;
	ScrollbarMode m_horizontalScrollbarMode;
	ScrollbarMode m_verticalScrollbarMode;

	bool m_horizontalScrollbarLock;
	bool m_verticalScrollbarLock;

	bool m_prohibitsScrolling;

	HashSet<RefPtr<Widget> > m_children;

	// This bool is unused on Mac OS because we directly ask the platform widget
	// whether it is safe to blit on scroll.
	bool m_canBlitOnScroll;

	IntRect m_actualVisibleContentRect;
	IntSize m_scrollOffset; // FIXME: Would rather store this as a position, but we will wait to make this change until more code is shared.
	IntPoint m_cachedScrollPosition;
	IntSize m_fixedLayoutSize;
	IntSize m_contentsSize;

	int m_scrollbarsAvoidingResizer;
	bool m_scrollbarsSuppressed;

	bool m_inUpdateScrollbars;
	unsigned m_updateScrollbarsPass;

	IntPoint m_panScrollIconPoint;
	bool m_drawPanScrollIcon;
	bool m_useFixedLayout;

	bool m_paintsEntireContents;
	bool m_clipsRepaints;
	bool m_delegatesScrolling;

	bool m_containsScrollableAreaWithOverlayScrollbars;

	IntSize m_boundsSize;

	void init();
	void destroy();

	// Called to update the scrollbars to accurately reflect the state of the view.
	void updateScrollbars(const IntSize& desiredOffset);

	// Called when the scroll position within this view changes. FrameView overrides this to generate repaint invalidations.
	virtual void repaintFixedElementsAfterScrolling() {}

	void platformInit();
	void platformDestroy();
	void platformAddChild(Widget*);
	void platformRemoveChild(Widget*);
	void platformSetScrollbarModes();
	void platformScrollbarModes(ScrollbarMode& horizontal, ScrollbarMode& vertical) const;
	void platformSetCanBlitOnScroll(bool);
	bool platformCanBlitOnScroll() const;
	IntRect platformVisibleContentRect(bool includeScrollbars) const;
	IntSize platformContentsSize() const;
	void platformSetContentsSize();
	IntRect platformContentsToScreen(const IntRect&) const;
	IntPoint platformScreenToContents(const IntPoint&) const;
	void platformSetScrollPosition(const IntPoint&);
	bool platformScroll(ScrollDirection, ScrollGranularity);
	void platformSetScrollbarsSuppressed(bool repaintOnUnsuppress);
	void platformRepaintContentRectangle(const IntRect&, bool now);
	bool platformIsOffscreen() const;

	void platformSetScrollOrigin(const IntPoint&, bool updatePositionAtAll, bool updatePositionSynchronously);

	#if PLATFORM(ANDROID)
	int platformActualWidth() const;
	int platformActualHeight() const;
	int platformActualScrollX() const;
	int platformActualScrollY() const;
	#endif

	#if PLATFORM(MAC) && defined __OBJC__
	public:
	NSView* documentView() const;

	private:
	NSScrollView<WebCoreFrameScrollView>* scrollView() const;
	#endif

	#if PLATFORM(GTK)
	public:
	void setGtkAdjustments(GtkAdjustment* hadj, GtkAdjustment* vadj, bool resetValues = true);
	void setHorizontalAdjustment(GtkAdjustment* hadj, bool resetValues = true);
	void setVerticalAdjustment(GtkAdjustment* vadj, bool resetValues = true);
	void setScrollOffset(const IntSize& offset) { m_scrollOffset = offset; }

	private:
	GRefPtr<GtkAdjustment> m_horizontalAdjustment;
	GRefPtr<GtkAdjustment> m_verticalAdjustment;
	#endif

	#if PLATFORM(WX)
	public:
	virtual void setPlatformWidget(wxWindow*);
	void adjustScrollbars(int x = -1, int y = -1, bool refresh = true);
	private:
	class ScrollViewPrivate;
	ScrollViewPrivate* m_data;
	#endif

	#ifdef ANDROID_CAPTURE_OFFSCREEN_PAINTS
	public:
	// capture parts of rect not contained by vis
	void platformOffscreenContentRectangle(const IntRect& vis,
	const IntRect& rect);
	#endif
	}; // class ScrollView

	} // namespace WebCore

	#endif // ScrollView_h