CommonProperties.cs source code in C# .NET

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/ Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / whidbey / NetFXspW7 / ndp / fx / src / WinForms / Managed / System / WinForms / Layout / CommonProperties.cs / 1 / CommonProperties.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

namespace System.Windows.Forms.Layout { 
    using System; 
    using System.Collections.Specialized;
    using System.Collections; 
    using System.Diagnostics;
    using System.Diagnostics.CodeAnalysis;
    using System.Drawing;
    using System.Windows.Forms; 
    using System.ComponentModel;
 
 
    // Some LayoutEngines extend the same properties to their children.  We want
    // these extended properties to retain their value when moved from one container 
    // to another.  (For example, set BoxStretchInternal on a control in FlowPanel and then move
    // the control to GridPanel.)  CommonProperties is a place to define keys and
    // accessors for such properties.
    internal class CommonProperties { 

 
        private static readonly int _layoutStateProperty = PropertyStore.CreateKey(); 
        private static readonly int _specifiedBoundsProperty = PropertyStore.CreateKey();
        private static readonly int _preferredSizeCacheProperty = PropertyStore.CreateKey(); 
        private static readonly int _paddingProperty = PropertyStore.CreateKey();

        private static readonly int _marginProperty = PropertyStore.CreateKey();
        private static readonly int _minimumSizeProperty = PropertyStore.CreateKey(); 
        private static readonly int _maximumSizeProperty = PropertyStore.CreateKey();
        private static readonly int _layoutBoundsProperty = PropertyStore.CreateKey(); 
 
#if DEBUG
        private static readonly int _lastKnownStateProperty = PropertyStore.CreateKey(); 

#endif

        internal const ContentAlignment DefaultAlignment = ContentAlignment.TopLeft; 
        internal const AnchorStyles DefaultAnchor = AnchorStyles.Top | AnchorStyles.Left;
        internal const bool DefaultAutoSize = false; 
 
        internal const DockStyle DefaultDock = DockStyle.None;
        internal static readonly Padding DefaultMargin = new Padding(3); 
        internal static readonly Size DefaultMinimumSize = new Size(0, 0);
        internal static readonly Size DefaultMaximumSize = new Size(0, 0);

 
        // DO NOT MOVE THE FOLLOWING 4 SECTIONS
        // We have done some special arranging here so that if the first 7 bits of state are zero, we know 
        // that the control is purely absolutely positioned and DefaultLayout does not need to do 
        // anything.
        // 
        private static readonly BitVector32.Section _dockAndAnchorNeedsLayoutSection = BitVector32.CreateSection(0x7F);
        private static readonly BitVector32.Section _dockAndAnchorSection = BitVector32.CreateSection(0x0F);
        private static readonly BitVector32.Section _dockModeSection = BitVector32.CreateSection(0x01, _dockAndAnchorSection);
        private static readonly BitVector32.Section _autoSizeSection = BitVector32.CreateSection(0x01, _dockModeSection); 
        private static readonly BitVector32.Section _BoxStretchInternalSection = BitVector32.CreateSection(0x03, _autoSizeSection);
        private static readonly BitVector32.Section _anchorNeverShrinksSection = BitVector32.CreateSection(0x01, _BoxStretchInternalSection); 
        private static readonly BitVector32.Section _flowBreakSection = BitVector32.CreateSection(0x01, _anchorNeverShrinksSection); 
        private static readonly BitVector32.Section _selfAutoSizingSection = BitVector32.CreateSection(0x01, _flowBreakSection);
        private static readonly BitVector32.Section _autoSizeModeSection   = BitVector32.CreateSection(0x01, _selfAutoSizingSection); 



        private enum DockAnchorMode{ 
            Anchor = 0,
            Dock = 1 
        } 

#region AppliesToAllLayouts 

        /// ClearMaximumSize
        ///     Removes the maximum size from the property store, making it "unset".
        /// 
        internal static void ClearMaximumSize(IArrangedElement element) {
             if (element.Properties.ContainsObject(_maximumSizeProperty)) { 
                 element.Properties.RemoveObject(_maximumSizeProperty); 
             }
         } 

        /// GetAutoSize
        ///     Determines whether or not the System.Windows.Forms.Layout LayoutEngines
        ///     think the element is AutoSized. 
        ///
        ///     A control can thwart the layout engine by overriding its virtual AutoSize 
        ///     property and not calling base.  If CommonProperties.GetAutoSize(element) is false, 
        ///     a layout engine will treat it as AutoSize = false and not size the element to its
        ///     preferred size. 
        internal static bool GetAutoSize(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            int value = state[_autoSizeSection];
            return value != 0; 
        }
 
        /// GetMargin 
        ///     Returns the Margin (exterior space) for an item
        /// 
        ///     We can not use our pattern of passing the default value into Margin because the
        ///     LayoutEngines read this property and do not know each element's DefaultMargin.
        ///     Instead the Element sets the Margin in its ctor.
        internal static Padding GetMargin(IArrangedElement element) { 
            bool found;
            Padding padding = element.Properties.GetPadding(_marginProperty, out found); 
            if (found) { 
                return padding;
            } 
            return DefaultMargin;
        }

       /// GetMaximumSize 
       ///     Returns the maximum size for an element
       internal static Size GetMaximumSize(IArrangedElement element, Size defaultMaximumSize) { 
           bool found; 
           Size size = element.Properties.GetSize(_maximumSizeProperty, out found);
           if (found) { 
              return size;
           }
           return defaultMaximumSize;
        } 

 
        /// GetMinimumSize 
        ///     Returns the minimum size for an element
        internal static Size GetMinimumSize(IArrangedElement element, Size defaultMinimumSize) { 
            bool found;
            Size size = element.Properties.GetSize(_minimumSizeProperty, out found);
            if (found) {
               return size; 
            }
            return defaultMinimumSize; 
        } 

        /// GetPadding 
        ///        Returns the padding for an element
        ///        Typically the padding is accounted for in either the DisplayRectangle calculation
        ///        and/or the GetPreferredSize calculation of a control.
        /// 
        /// NOTE:  LayoutEngines should never read this property.  Padding gets incorperated into
        ///        layout by modifying what the control reports for preferred size. 
        internal static Padding GetPadding(IArrangedElement element, Padding defaultPadding) { 
            bool found;
            Padding padding = element.Properties.GetPadding(_paddingProperty, out found); 
            if (found) {
                return padding;
            }
            return defaultPadding; 
        }
 
        /// GetSpecifiedBounds 
        ///     Returns the last size manually set into the element.  See UpdateSpecifiedBounds.
        internal static Rectangle GetSpecifiedBounds(IArrangedElement element) { 
            bool found;
            Rectangle rectangle = element.Properties.GetRectangle(_specifiedBoundsProperty, out found);
            if (found && rectangle != LayoutUtils.MaxRectangle) {
               return rectangle; 
            }
            return element.Bounds; 
        } 

        /// ResetPadding	 
        ///    clears out the padding from the property store
        internal static void ResetPadding(IArrangedElement element) {
            object value = element.Properties.GetObject(_paddingProperty);
            if(value != null) { 
                element.Properties.RemoveObject(_paddingProperty);
            } 
        } 

 
        /// SetAutoSize
        ///     Sets whether or not the layout engines should treat this control as auto sized.
        internal static void SetAutoSize(IArrangedElement element, bool value) {
            Debug.Assert(value != GetAutoSize(element), "PERF: Caller should guard against setting AutoSize to original value."); 

            BitVector32 state = GetLayoutState(element); 
            state[_autoSizeSection] = value ? 1 : 0; 
            SetLayoutState(element, state);
            if(value == false) { 
                // If autoSize is being turned off, restore the control to its specified bounds.
                element.SetBounds(GetSpecifiedBounds(element), BoundsSpecified.None);
            }
 
            Debug.Assert(GetAutoSize(element) == value, "Error detected setting AutoSize.");
        } 
 
        /// SetMargin
        ///     Sets the margin (exterior space) for an element. 
        internal static void SetMargin(IArrangedElement element, Padding value) {
            Debug.Assert(value != GetMargin(element), "PERF: Caller should guard against setting Margin to original value.");

            element.Properties.SetPadding(_marginProperty, value); 

            Debug.Assert(GetMargin(element) == value, "Error detected setting Margin."); 
 
            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.Margin);
 
        }


        /// SetMaximumSize 
        ///     Sets the maximum size for an element.
        internal static void SetMaximumSize(IArrangedElement element, Size value) { 
            Debug.Assert(value != GetMaximumSize(element, new Size(-7109, -7107)), 
                "PERF: Caller should guard against setting MaximumSize to original value.");
 
            element.Properties.SetSize(_maximumSizeProperty, value);

            // Element bounds may need to truncated to new maximum
            // 
            Rectangle bounds = element.Bounds;
            bounds.Width = Math.Min(bounds.Width, value.Width); 
            bounds.Height = Math.Min(bounds.Height, value.Height); 
            element.SetBounds(bounds, BoundsSpecified.Size);
 
            // element.SetBounds does a SetBoundsCore.  We still need to explicitly refresh parent layout.
            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.MaximumSize);

            Debug.Assert(GetMaximumSize(element, new Size(-7109, -7107)) == value, "Error detected setting MaximumSize."); 
        }
 
        /// SetMinimumSize 
        ///     Sets the minimum size for an element.
        internal static void SetMinimumSize(IArrangedElement element, Size value) { 
            Debug.Assert(value != GetMinimumSize(element, new Size(-7109, -7107)),
                "PERF: Caller should guard against setting MinimumSize to original value.");

            element.Properties.SetSize(_minimumSizeProperty, value); 

            using (new LayoutTransaction(element.Container as Control, element, PropertyNames.MinimumSize)) { 
                // Element bounds may need to inflated to new minimum 
                //
                Rectangle bounds = element.Bounds; 
                bounds.Width = Math.Max(bounds.Width, value.Width);
                bounds.Height = Math.Max(bounds.Height, value.Height);
                element.SetBounds(bounds, BoundsSpecified.Size);
            } 

            Debug.Assert(GetMinimumSize(element, new Size(-7109, -7107)) == value, "Error detected setting MinimumSize."); 
        } 

 
        /// SetPadding
        ///     Sets the padding (interior space) for an element. See GetPadding for more detiails.
        ///     NOTE: It is the callers responsibility to do layout.  See Control.Padding for details.
        internal static void SetPadding(IArrangedElement element, Padding value) { 
            Debug.Assert(value != GetPadding(element, new Padding(-7105)),
                "PERF: Caller should guard against setting Padding to original value."); 
 
            value = LayoutUtils.ClampNegativePaddingToZero(value);
            element.Properties.SetPadding(_paddingProperty, value); 


            Debug.Assert(GetPadding(element, new Padding(-7105)) == value, "Error detected setting Padding.");
        } 

 
        /// UpdateSpecifiedBounds 
        ///     The main purpose of this function is to remember what size someone specified in the Size, Width, Height, Bounds
        ///     property.  (Its the whole reason the BoundsSpecified enum exists.)  Consider this scenario.  You set a Button 
        ///     to DockStyle.Fill, then DockStyle.None.  When Dock.Filled, the Size changed to 300,300.  When you
        ///     set it back to DockStyle.None, the size switches back to 100,23.  How does this happen?
        ///
        ///     Setting the control to Dock.Fill (via DefaultLayout engine) 
        ///         element.SetBounds(newElementBounds, BoundsSpecified.None);
        /// 
        ///     (If someone happens to set the Size property here the specified bounds gets updated via Control.Size) 
        ///          SetBounds(x, y, value.Width, value.Height, BoundsSpecified.Size);
        /// 
        ///     Setting the control to Dock.None (via DefaultLayout.SetDock)
        ///         element.SetBounds(CommonProperties.GetSpecifiedBounds(element), BoundsSpecified.None);
        internal static void UpdateSpecifiedBounds(IArrangedElement element, int x, int y, int width, int height, BoundsSpecified specified) {
            Rectangle originalBounds = CommonProperties.GetSpecifiedBounds(element); 

            // PERF note: Bitwise operator usage intentional to optimize out branching. 
 
            bool xChangedButNotSpecified = ((specified & BoundsSpecified.X) == BoundsSpecified.None) & x != originalBounds.X;
            bool yChangedButNotSpecified = ((specified & BoundsSpecified.Y) == BoundsSpecified.None) & y != originalBounds.Y; 
            bool wChangedButNotSpecified = ((specified & BoundsSpecified.Width) == BoundsSpecified.None) & width != originalBounds.Width;
            bool hChangedButNotSpecified = ((specified & BoundsSpecified.Height) == BoundsSpecified.None) & height != originalBounds.Height;

            if(xChangedButNotSpecified | yChangedButNotSpecified | wChangedButNotSpecified | hChangedButNotSpecified) { 
                // if any of them are changed and specified cache the new value.
 
                if (!xChangedButNotSpecified) originalBounds.X = x; 
                if (!yChangedButNotSpecified) originalBounds.Y = y;
                if (!wChangedButNotSpecified) originalBounds.Width = width; 
                if (!hChangedButNotSpecified) originalBounds.Height = height;

                element.Properties.SetRectangle(_specifiedBoundsProperty, originalBounds);
 
            } else {
                // SetBoundsCore is going to call this a lot with the same bounds.  Avoid the set object 
                // (which indirectly may causes an allocation) if we can. 
                if(element.Properties.ContainsObject(_specifiedBoundsProperty)) {
                    // use MaxRectangle instead of null so we can reuse the SizeWrapper in the property store. 
                    element.Properties.SetRectangle(_specifiedBoundsProperty, LayoutUtils.MaxRectangle);
                }
            }
        } 

        // Used by ToolStripControlHost.Size. 
        internal static void UpdateSpecifiedBounds(IArrangedElement element, int x, int y, int width, int height) { 
            Rectangle bounds = new Rectangle(x, y, width, height);
            element.Properties.SetRectangle(_specifiedBoundsProperty, bounds); 
        }


 
        /// xClearPreferredSizeCache
        ///     clears the preferred size cached for any control that overrides 
        ///     the internal GetPreferredSizeCore method.  DO NOT CALL DIRECTLY 
        ///     unless it is understood how the size of the control is going to be updated.
        /// 


        internal static void xClearPreferredSizeCache(IArrangedElement element) {
            element.Properties.SetSize(_preferredSizeCacheProperty, LayoutUtils.InvalidSize); 
#if DEBUG
            Debug_ClearProperties(element); 
#endif 

            Debug.Assert(xGetPreferredSizeCache(element) == Size.Empty, "Error detected in xClearPreferredSizeCache."); 
        }

        /// xClearAllPreferredSizeCaches
        ///     clears all the caching for an IArrangedElement hierarchy 
        ///     typically done in dispose.
        internal static void xClearAllPreferredSizeCaches(IArrangedElement start) { 
            CommonProperties.xClearPreferredSizeCache(start); 

            ArrangedElementCollection controlsCollection = start.Children; 
            // This may have changed the sizes of our children.
            // PERFNOTE: This is more efficient than using Foreach.  Foreach
            // forces the creation of an array subset enum each time we
            // enumerate 
            for(int i = 0; i < controlsCollection.Count; i++) {
                xClearAllPreferredSizeCaches(controlsCollection[i]); 
            } 
        }
 
        /// xGetPreferredSizeCache
        ///     This value is the cached result of the return value from
        ///     a control's GetPreferredSizeCore implementation when asked
        ///     for a constraining value of LayoutUtils.MaxValue (or Size.Empty too). 
        internal static Size xGetPreferredSizeCache(IArrangedElement element) {
            bool found; 
            Size size = element.Properties.GetSize(_preferredSizeCacheProperty, out found); 
            if (found && (size != LayoutUtils.InvalidSize)) {
               return size; 
            }
            return Size.Empty;
        }
 
        /// xSetPreferredSizeCache
        ///     Sets a control's preferred size.  See xGetPreferredSizeCache. 
        internal static void xSetPreferredSizeCache(IArrangedElement element, Size value) { 
            Debug.Assert(value == Size.Empty || value != xGetPreferredSizeCache(element), "PERF: Caller should guard against setting PreferredSizeCache to original value.");
#if DEBUG 
            Debug_SnapProperties(element);
#endif
            element.Properties.SetSize(_preferredSizeCacheProperty, value);
            Debug.Assert(xGetPreferredSizeCache(element) == value, "Error detected in xGetPreferredSizeCache."); 
        }
 
#endregion 

#region DockAndAnchorLayoutSpecific 

        /// GetAutoSizeMode
        ///     Returns whether or not a control should snap to its smallest size
        ///     or retain its original size and only grow if the preferred size is larger. 
        ///     We tried not having GrowOnly as the default, but it becomes difficult
        ///     to design panels or have Buttons maintain their default size of 100,23 
        internal static AutoSizeMode GetAutoSizeMode(IArrangedElement element) { 
             BitVector32 state = GetLayoutState(element);
             return state[_autoSizeModeSection] == 0 ? AutoSizeMode.GrowOnly : AutoSizeMode.GrowAndShrink; 
        }

        /// GetNeedsDockAndAnchorLayout
        ///     Do not use.  Internal property for DockAndAnchor layout. 
        ///     Returns true if DefaultLayout needs to do any work for this element.
        ///     (Returns false if the element is purely absolutely positioned) 
        internal static bool GetNeedsDockAndAnchorLayout(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
            bool result = state[_dockAndAnchorNeedsLayoutSection] != 0; 

            Debug.Assert(
                (xGetAnchor(element) == DefaultAnchor
                && xGetDock(element) == DefaultDock 
                && GetAutoSize(element) == DefaultAutoSize) != result,
                "Individual values of Anchor/Dock/AutoRelocate/Autosize contradict GetNeedsDockAndAnchorLayout()."); 
 
            return result;
        } 

        /// GetNeedsAnchorLayout
        ///     Do not use.  Internal property for DockAndAnchor layout.
        ///     Returns true if DefaultLayout needs to do anchoring for this element. 
        internal static bool GetNeedsAnchorLayout(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            bool result = (state[_dockAndAnchorNeedsLayoutSection] != 0) && (state[_dockModeSection] == (int) DockAnchorMode.Anchor); 

            Debug.Assert( 
                (xGetAnchor(element) != DefaultAnchor
                || (GetAutoSize(element) != DefaultAutoSize && xGetDock(element) == DockStyle.None)) == result,
                "Individual values of Anchor/Dock/AutoRelocate/Autosize contradict GetNeedsAnchorLayout().");
 
            return result;
        } 
 
        /// GetNeedsDockLayout
        ///     Do not use.  Internal property for DockAndAnchor layout. 
        ///     Returns true if DefaultLayout needs to do docking for this element.
        internal static bool GetNeedsDockLayout(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            bool result = state[_dockModeSection] == (int) DockAnchorMode.Dock && element.ParticipatesInLayout; 

            Debug.Assert(((xGetDock(element) != DockStyle.None) && element.ParticipatesInLayout) == result, 
                "Error detected in GetNeedsDockLayout()."); 

            return result; 
        }

        /// GetSelfAutoSize
        ///     Compat flag for controls that previously sized themselves. 
        ///     Some controls rolled their own implementation of AutoSize in V1 for Dock & Anchor
        ///     In V2, the LayoutEngine is the one responsible for sizing the child items when 
        ///     they're AutoSized.  For new layout engines, the controls will let the layout engine 
        ///     size them, but for DefaultLayout, they're left to size themselves.
        internal static bool GetSelfAutoSizeInDefaultLayout(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
            int value = state[_selfAutoSizingSection];
            return (value == 1);
        } 

 
        /// SetAutoSizeMode 
        ///     Returns whether or not a control should snap to its smallest size
        ///     or retain its original size and only grow if the preferred size is larger. 
        ///     We tried not having GrowOnly as the default, but it becomes difficult
        ///     to design panels or have Buttons maintain their default size of 100,23
        internal static void SetAutoSizeMode(IArrangedElement element, AutoSizeMode mode) {
             BitVector32 state = GetLayoutState(element); 
             state[_autoSizeModeSection] = mode == AutoSizeMode.GrowAndShrink ? 1 : 0;
             SetLayoutState(element, state); 
        } 

        /// ShouldSelfSize 
        ///     Compat flag for controls that previously sized themselves.
        ///     See GetSelfAutoSize comments.
        internal static bool ShouldSelfSize(IArrangedElement element) {
            if (GetAutoSize(element)) { 
                // check for legacy layout engine
                if (element.Container is Control) { 
                    if (((Control)element.Container).LayoutEngine is DefaultLayout) { 
                        return GetSelfAutoSizeInDefaultLayout(element);
                    } 
                }
                // else
                //   - unknown element type
                //   - new LayoutEngine which should set the size to the preferredSize anyways. 
                return false;
            } 
            // autosize false things should selfsize. 
            return true;
        } 

        /// SetSelfAutoSizeInDefaultLayout
        ///     Compat flag for controls that previously sized themselves.
        ///     See GetSelfAutoSize comments. 
        internal static void SetSelfAutoSizeInDefaultLayout(IArrangedElement element, bool value) {
            Debug.Assert(value != GetSelfAutoSizeInDefaultLayout(element), "PERF: Caller should guard against setting AutoSize to original value."); 
 
            BitVector32 state = GetLayoutState(element);
            state[_selfAutoSizingSection] = value ? 1 : 0; 
            SetLayoutState(element, state);

            Debug.Assert(GetSelfAutoSizeInDefaultLayout(element) == value, "Error detected setting AutoSize.");
        } 

 
        /// xGetAnchor - 
        ///     Do not use this.  Use DefaultLayout.GetAnchor.
        ///     NOTE that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static AnchorStyles xGetAnchor(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            AnchorStyles value = (AnchorStyles) state[_dockAndAnchorSection];
            DockAnchorMode mode = (DockAnchorMode) state[_dockModeSection]; 

            // If we are docked, or if it the value is 0, we return DefaultAnchor 
            value = mode == DockAnchorMode.Anchor ? xTranslateAnchorValue(value) : DefaultAnchor; 

            Debug.Assert(mode == DockAnchorMode.Anchor || value == DefaultAnchor, "xGetAnchor needs to return DefaultAnchor when docked."); 
            return value;
        }

        /// xGetAutoSizedAndAnchored - 
        ///     Do not use.  Internal property for DockAndAnchor layout.
        ///     Returns true if the element is both AutoSized and Anchored. 
        internal static bool xGetAutoSizedAndAnchored(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
 
            if (state[_selfAutoSizingSection] != 0) {
                return false;
            }
            bool result = (state[_autoSizeSection] != 0) && (state[_dockModeSection] == (int) DockAnchorMode.Anchor); 
            Debug.Assert(result == (GetAutoSize(element) && xGetDock(element) == DockStyle.None),
                "Error detected in xGetAutoSizeAndAnchored."); 
 
            return result;
        } 

        /// xGetDock
        ///     Do not use this.  Use DefaultLayout.GetDock.
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static DockStyle xGetDock(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            DockStyle value = (DockStyle) state[_dockAndAnchorSection]; 
            DockAnchorMode mode = (DockAnchorMode) state[_dockModeSection];
 
            // If we are anchored we return DefaultDock
            value = mode == DockAnchorMode.Dock ? value : DefaultDock;
            Debug.Assert(ClientUtils.IsEnumValid(value, (int)value, (int)DockStyle.None, (int)DockStyle.Fill), "Illegal value returned form xGetDock.");
 
            Debug.Assert(mode == DockAnchorMode.Dock || value == DefaultDock,
                "xGetDock needs to return the DefaultDock style when not docked."); 
 
            return value;
        } 



        /// xSetAnchor - 
        ///     Do not use this.  Use DefaultLayout.SetAnchor.
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static void xSetAnchor(IArrangedElement element, AnchorStyles value) { 
            Debug.Assert(value != xGetAnchor(element), "PERF: Caller should guard against setting Anchor to original value.");
 
            BitVector32 state = GetLayoutState(element);

            // We translate DefaultAnchor to zero - see the _dockAndAnchorNeedsLayoutSection section above.
            state[_dockAndAnchorSection] = (int) xTranslateAnchorValue(value); 
            state[_dockModeSection] = (int) DockAnchorMode.Anchor;
 
            SetLayoutState(element, state); 

            Debug.Assert(xGetAnchor(element) == value, "Error detected setting Anchor."); 
            Debug.Assert(GetLayoutState(element)[_dockModeSection] == (int) DockAnchorMode.Anchor,
                "xSetAnchor did not set mode to Anchor.");
        }
 
        /// xSetDock
        ///     Do not use this.  Use DefaultLayout.SetDock. 
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static void xSetDock(IArrangedElement element, DockStyle value) {
            Debug.Assert(value != xGetDock(element), "PERF: Caller should guard against setting Dock to original value."); 
            Debug.Assert(ClientUtils.IsEnumValid(value, (int)value, (int)DockStyle.None, (int)DockStyle.Fill), "Illegal value passed to xSetDock.");

            BitVector32 state = GetLayoutState(element);
 
            state[_dockAndAnchorSection] = (int) value;     // See xTranslateAnchorValue for why this works with Dock.None.
            state[_dockModeSection] = (int) (value == DockStyle.None ? DockAnchorMode.Anchor : DockAnchorMode.Dock); 
 
            SetLayoutState(element, state);
 
            Debug.Assert(xGetDock(element) == value, "Error detected setting Dock.");
            Debug.Assert((GetLayoutState(element)[_dockModeSection] == (int) DockAnchorMode.Dock)
                == (value != DockStyle.None), "xSetDock set DockMode incorrectly.");
        } 

        /// xTranslateAnchorValue - 
        ///     Helper method for xGetAnchor / xSetAnchor. 
        ///     We store anchor DefualtAnchor as None and vice versa.
        ///     We either had to do this or map Dock.None to DefaultAnchor (Dock & Anchor share the same section 
        ///     in LayoutState.) Mapping DefaultAnchor to 0 is nicer because we do not need to allocate anything in
        ///     the PropertyStore to get a 0 back from PropertyStore.GetInteger().
        private static AnchorStyles xTranslateAnchorValue(AnchorStyles anchor) {
            switch(anchor) { 
                case AnchorStyles.None:
                    return DefaultAnchor; 
                case DefaultAnchor: 
                    return AnchorStyles.None;
            } 
            return anchor;
        }

#endregion 

#region FlowLayoutSpecific 
        // 

 


        internal static bool GetFlowBreak(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            int value = state[_flowBreakSection];
            return value == 1; 
        } 

 
        /// SetFlowBreak
        ///     Use FlowLayoutSettings.SetFlowBreak instead.
        ///     See GetFlowBreak.
        internal static void SetFlowBreak(IArrangedElement element, bool value) { 
            Debug.Assert(value != GetFlowBreak(element), "PERF: Caller should guard against setting FlowBreak to original value.");
 
            BitVector32 state = GetLayoutState(element); 
            state[_flowBreakSection] = value ? 1 : 0;
            SetLayoutState(element, state); 

            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.FlowBreak);

            Debug.Assert(GetFlowBreak(element) == value, "Error detected setitng SetFlowBreak."); 
        }
#endregion 
#region AutoScrollSpecific 

        /// GetLayoutBounds - 
        ///     This is the size used to determine whether or not we need scrollbars.
        ///
        ///     Used if the layoutengine always want to return the same layout bounds regardless
        ///     of how it lays out. Example is TLP in RTL and LTR. VSWhidbey# 392913 
        internal static Size GetLayoutBounds(IArrangedElement element) {
            bool found; 
            Size size = element.Properties.GetSize(_layoutBoundsProperty, out found); 
            if (found) {
               return size; 
            }
            return Size.Empty;
        }
 

        /// SetLayoutBounds - 
        ///     This is the size used to determine whether or not we need scrollbars. 
        ///
        ///     The TableLayout engine now calls CommonProperties.SetLayoutBounds when 
        ///     it is done with its layout. The layoutbounds are the total column width
        ///     and the total row height. ScrollableControl checks if the LayoutBounds
        ///     has been set in the CommonProperties when it tries to figure out if it
        ///     should add scrollbars - but only if the layout engine is not the default 
        ///     layout engine. If the bounds has been set, ScrollableControl will use
        ///     those bounds to check if scrollbars should be added, rather than doing 
        ///     its own magic to figure it out. 
        internal static void SetLayoutBounds(IArrangedElement element, Size value) {
            element.Properties.SetSize(_layoutBoundsProperty, value); 
        }


        /// HasLayoutBounds - 
        ///     Returns whether we have layout bounds stored for this element.
        internal static bool HasLayoutBounds(IArrangedElement element) { 
            bool found; 
            element.Properties.GetSize(_layoutBoundsProperty, out found);
            return found; 
        }

#endregion
#region InternalCommonPropertiesHelpers 

        /// GetLayoutState - returns the layout state bit vector from the property store. 
        ///     CAREFUL: this is a copy of the state.  You need to SetLayoutState() to save your changes. 
        ///
        internal static BitVector32 GetLayoutState(IArrangedElement element) { 
            return new BitVector32(element.Properties.GetInteger(_layoutStateProperty));
        }

        internal static void SetLayoutState(IArrangedElement element, BitVector32 state) { 
            element.Properties.SetInteger(_layoutStateProperty, state.Data);
        } 
#endregion 

#region DebugHelpers 
#if DEBUG


        internal static readonly TraceSwitch PreferredSize = new TraceSwitch("PreferredSize", "Debug preferred size assertion"); 

        internal static string Debug_GetChangedProperties(IArrangedElement element) { 
            string diff = ""; 
            if (PreferredSize.TraceVerbose) {
                Hashtable propertyHash = element.Properties.GetObject(_lastKnownStateProperty) as Hashtable; 
                if(propertyHash != null) {
                    foreach (PropertyDescriptor pd in TypeDescriptor.GetProperties(element)) {
                         if (propertyHash.ContainsKey(pd.Name) && (propertyHash[pd.Name].ToString() != pd.Converter.ConvertToString(pd.GetValue(element))))  {
                             diff += "Prop [ " + pd.Name + "] OLD [" + propertyHash[pd.Name] + "] NEW [" + pd.Converter.ConvertToString(pd.GetValue(element)) + "]\r\n"; 
                         }
                    } 
                } 
            }
            else { 
                diff = "For more info, try enabling PreferredSize trace switch";
            }
            return diff;
 
        }
 
        internal static void Debug_SnapProperties(IArrangedElement element) { 
            // DEBUG - store off the old state so we can figure out what has changed in a GPS assert
            element.Properties.SetObject(_lastKnownStateProperty, Debug_GetCurrentPropertyState(element)); 
        }
        internal static void Debug_ClearProperties(IArrangedElement element) {
            // DEBUG - clear off the old state so we can figure out what has changed in a GPS assert
            element.Properties.SetObject(_lastKnownStateProperty, null); 
        }
 
        [SuppressMessage("Microsoft.Design", "CA1031:DoNotCatchGeneralExceptionTypes")] 
        public static Hashtable Debug_GetCurrentPropertyState(object obj) {
 
            Hashtable propertyHash = new Hashtable();
            if (PreferredSize.TraceVerbose) {

                foreach (PropertyDescriptor pd in TypeDescriptor.GetProperties(obj)) { 
                    if (pd.Name == "PreferredSize") {
                        continue;  // avoid accidentally forcing a call to GetPreferredSize 
                    } 
                    try {
                      if (pd.IsBrowsable && !pd.IsReadOnly && pd.SerializationVisibility != DesignerSerializationVisibility.Hidden) { 
                         propertyHash[pd.Name] = pd.Converter.ConvertToString(pd.GetValue(obj));
                      }
                    }
                    catch { 
                    }
                } 
            } 
            return propertyHash;
 
        }


#endif 
#endregion
    } 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
//----------------------------------------------------------------------------- 

namespace System.Windows.Forms.Layout { 
    using System; 
    using System.Collections.Specialized;
    using System.Collections; 
    using System.Diagnostics;
    using System.Diagnostics.CodeAnalysis;
    using System.Drawing;
    using System.Windows.Forms; 
    using System.ComponentModel;
 
 
    // Some LayoutEngines extend the same properties to their children.  We want
    // these extended properties to retain their value when moved from one container 
    // to another.  (For example, set BoxStretchInternal on a control in FlowPanel and then move
    // the control to GridPanel.)  CommonProperties is a place to define keys and
    // accessors for such properties.
    internal class CommonProperties { 

 
        private static readonly int _layoutStateProperty = PropertyStore.CreateKey(); 
        private static readonly int _specifiedBoundsProperty = PropertyStore.CreateKey();
        private static readonly int _preferredSizeCacheProperty = PropertyStore.CreateKey(); 
        private static readonly int _paddingProperty = PropertyStore.CreateKey();

        private static readonly int _marginProperty = PropertyStore.CreateKey();
        private static readonly int _minimumSizeProperty = PropertyStore.CreateKey(); 
        private static readonly int _maximumSizeProperty = PropertyStore.CreateKey();
        private static readonly int _layoutBoundsProperty = PropertyStore.CreateKey(); 
 
#if DEBUG
        private static readonly int _lastKnownStateProperty = PropertyStore.CreateKey(); 

#endif

        internal const ContentAlignment DefaultAlignment = ContentAlignment.TopLeft; 
        internal const AnchorStyles DefaultAnchor = AnchorStyles.Top | AnchorStyles.Left;
        internal const bool DefaultAutoSize = false; 
 
        internal const DockStyle DefaultDock = DockStyle.None;
        internal static readonly Padding DefaultMargin = new Padding(3); 
        internal static readonly Size DefaultMinimumSize = new Size(0, 0);
        internal static readonly Size DefaultMaximumSize = new Size(0, 0);

 
        // DO NOT MOVE THE FOLLOWING 4 SECTIONS
        // We have done some special arranging here so that if the first 7 bits of state are zero, we know 
        // that the control is purely absolutely positioned and DefaultLayout does not need to do 
        // anything.
        // 
        private static readonly BitVector32.Section _dockAndAnchorNeedsLayoutSection = BitVector32.CreateSection(0x7F);
        private static readonly BitVector32.Section _dockAndAnchorSection = BitVector32.CreateSection(0x0F);
        private static readonly BitVector32.Section _dockModeSection = BitVector32.CreateSection(0x01, _dockAndAnchorSection);
        private static readonly BitVector32.Section _autoSizeSection = BitVector32.CreateSection(0x01, _dockModeSection); 
        private static readonly BitVector32.Section _BoxStretchInternalSection = BitVector32.CreateSection(0x03, _autoSizeSection);
        private static readonly BitVector32.Section _anchorNeverShrinksSection = BitVector32.CreateSection(0x01, _BoxStretchInternalSection); 
        private static readonly BitVector32.Section _flowBreakSection = BitVector32.CreateSection(0x01, _anchorNeverShrinksSection); 
        private static readonly BitVector32.Section _selfAutoSizingSection = BitVector32.CreateSection(0x01, _flowBreakSection);
        private static readonly BitVector32.Section _autoSizeModeSection   = BitVector32.CreateSection(0x01, _selfAutoSizingSection); 



        private enum DockAnchorMode{ 
            Anchor = 0,
            Dock = 1 
        } 

#region AppliesToAllLayouts 

        /// ClearMaximumSize
        ///     Removes the maximum size from the property store, making it "unset".
        /// 
        internal static void ClearMaximumSize(IArrangedElement element) {
             if (element.Properties.ContainsObject(_maximumSizeProperty)) { 
                 element.Properties.RemoveObject(_maximumSizeProperty); 
             }
         } 

        /// GetAutoSize
        ///     Determines whether or not the System.Windows.Forms.Layout LayoutEngines
        ///     think the element is AutoSized. 
        ///
        ///     A control can thwart the layout engine by overriding its virtual AutoSize 
        ///     property and not calling base.  If CommonProperties.GetAutoSize(element) is false, 
        ///     a layout engine will treat it as AutoSize = false and not size the element to its
        ///     preferred size. 
        internal static bool GetAutoSize(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            int value = state[_autoSizeSection];
            return value != 0; 
        }
 
        /// GetMargin 
        ///     Returns the Margin (exterior space) for an item
        /// 
        ///     We can not use our pattern of passing the default value into Margin because the
        ///     LayoutEngines read this property and do not know each element's DefaultMargin.
        ///     Instead the Element sets the Margin in its ctor.
        internal static Padding GetMargin(IArrangedElement element) { 
            bool found;
            Padding padding = element.Properties.GetPadding(_marginProperty, out found); 
            if (found) { 
                return padding;
            } 
            return DefaultMargin;
        }

       /// GetMaximumSize 
       ///     Returns the maximum size for an element
       internal static Size GetMaximumSize(IArrangedElement element, Size defaultMaximumSize) { 
           bool found; 
           Size size = element.Properties.GetSize(_maximumSizeProperty, out found);
           if (found) { 
              return size;
           }
           return defaultMaximumSize;
        } 

 
        /// GetMinimumSize 
        ///     Returns the minimum size for an element
        internal static Size GetMinimumSize(IArrangedElement element, Size defaultMinimumSize) { 
            bool found;
            Size size = element.Properties.GetSize(_minimumSizeProperty, out found);
            if (found) {
               return size; 
            }
            return defaultMinimumSize; 
        } 

        /// GetPadding 
        ///        Returns the padding for an element
        ///        Typically the padding is accounted for in either the DisplayRectangle calculation
        ///        and/or the GetPreferredSize calculation of a control.
        /// 
        /// NOTE:  LayoutEngines should never read this property.  Padding gets incorperated into
        ///        layout by modifying what the control reports for preferred size. 
        internal static Padding GetPadding(IArrangedElement element, Padding defaultPadding) { 
            bool found;
            Padding padding = element.Properties.GetPadding(_paddingProperty, out found); 
            if (found) {
                return padding;
            }
            return defaultPadding; 
        }
 
        /// GetSpecifiedBounds 
        ///     Returns the last size manually set into the element.  See UpdateSpecifiedBounds.
        internal static Rectangle GetSpecifiedBounds(IArrangedElement element) { 
            bool found;
            Rectangle rectangle = element.Properties.GetRectangle(_specifiedBoundsProperty, out found);
            if (found && rectangle != LayoutUtils.MaxRectangle) {
               return rectangle; 
            }
            return element.Bounds; 
        } 

        /// ResetPadding	 
        ///    clears out the padding from the property store
        internal static void ResetPadding(IArrangedElement element) {
            object value = element.Properties.GetObject(_paddingProperty);
            if(value != null) { 
                element.Properties.RemoveObject(_paddingProperty);
            } 
        } 

 
        /// SetAutoSize
        ///     Sets whether or not the layout engines should treat this control as auto sized.
        internal static void SetAutoSize(IArrangedElement element, bool value) {
            Debug.Assert(value != GetAutoSize(element), "PERF: Caller should guard against setting AutoSize to original value."); 

            BitVector32 state = GetLayoutState(element); 
            state[_autoSizeSection] = value ? 1 : 0; 
            SetLayoutState(element, state);
            if(value == false) { 
                // If autoSize is being turned off, restore the control to its specified bounds.
                element.SetBounds(GetSpecifiedBounds(element), BoundsSpecified.None);
            }
 
            Debug.Assert(GetAutoSize(element) == value, "Error detected setting AutoSize.");
        } 
 
        /// SetMargin
        ///     Sets the margin (exterior space) for an element. 
        internal static void SetMargin(IArrangedElement element, Padding value) {
            Debug.Assert(value != GetMargin(element), "PERF: Caller should guard against setting Margin to original value.");

            element.Properties.SetPadding(_marginProperty, value); 

            Debug.Assert(GetMargin(element) == value, "Error detected setting Margin."); 
 
            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.Margin);
 
        }


        /// SetMaximumSize 
        ///     Sets the maximum size for an element.
        internal static void SetMaximumSize(IArrangedElement element, Size value) { 
            Debug.Assert(value != GetMaximumSize(element, new Size(-7109, -7107)), 
                "PERF: Caller should guard against setting MaximumSize to original value.");
 
            element.Properties.SetSize(_maximumSizeProperty, value);

            // Element bounds may need to truncated to new maximum
            // 
            Rectangle bounds = element.Bounds;
            bounds.Width = Math.Min(bounds.Width, value.Width); 
            bounds.Height = Math.Min(bounds.Height, value.Height); 
            element.SetBounds(bounds, BoundsSpecified.Size);
 
            // element.SetBounds does a SetBoundsCore.  We still need to explicitly refresh parent layout.
            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.MaximumSize);

            Debug.Assert(GetMaximumSize(element, new Size(-7109, -7107)) == value, "Error detected setting MaximumSize."); 
        }
 
        /// SetMinimumSize 
        ///     Sets the minimum size for an element.
        internal static void SetMinimumSize(IArrangedElement element, Size value) { 
            Debug.Assert(value != GetMinimumSize(element, new Size(-7109, -7107)),
                "PERF: Caller should guard against setting MinimumSize to original value.");

            element.Properties.SetSize(_minimumSizeProperty, value); 

            using (new LayoutTransaction(element.Container as Control, element, PropertyNames.MinimumSize)) { 
                // Element bounds may need to inflated to new minimum 
                //
                Rectangle bounds = element.Bounds; 
                bounds.Width = Math.Max(bounds.Width, value.Width);
                bounds.Height = Math.Max(bounds.Height, value.Height);
                element.SetBounds(bounds, BoundsSpecified.Size);
            } 

            Debug.Assert(GetMinimumSize(element, new Size(-7109, -7107)) == value, "Error detected setting MinimumSize."); 
        } 

 
        /// SetPadding
        ///     Sets the padding (interior space) for an element. See GetPadding for more detiails.
        ///     NOTE: It is the callers responsibility to do layout.  See Control.Padding for details.
        internal static void SetPadding(IArrangedElement element, Padding value) { 
            Debug.Assert(value != GetPadding(element, new Padding(-7105)),
                "PERF: Caller should guard against setting Padding to original value."); 
 
            value = LayoutUtils.ClampNegativePaddingToZero(value);
            element.Properties.SetPadding(_paddingProperty, value); 


            Debug.Assert(GetPadding(element, new Padding(-7105)) == value, "Error detected setting Padding.");
        } 

 
        /// UpdateSpecifiedBounds 
        ///     The main purpose of this function is to remember what size someone specified in the Size, Width, Height, Bounds
        ///     property.  (Its the whole reason the BoundsSpecified enum exists.)  Consider this scenario.  You set a Button 
        ///     to DockStyle.Fill, then DockStyle.None.  When Dock.Filled, the Size changed to 300,300.  When you
        ///     set it back to DockStyle.None, the size switches back to 100,23.  How does this happen?
        ///
        ///     Setting the control to Dock.Fill (via DefaultLayout engine) 
        ///         element.SetBounds(newElementBounds, BoundsSpecified.None);
        /// 
        ///     (If someone happens to set the Size property here the specified bounds gets updated via Control.Size) 
        ///          SetBounds(x, y, value.Width, value.Height, BoundsSpecified.Size);
        /// 
        ///     Setting the control to Dock.None (via DefaultLayout.SetDock)
        ///         element.SetBounds(CommonProperties.GetSpecifiedBounds(element), BoundsSpecified.None);
        internal static void UpdateSpecifiedBounds(IArrangedElement element, int x, int y, int width, int height, BoundsSpecified specified) {
            Rectangle originalBounds = CommonProperties.GetSpecifiedBounds(element); 

            // PERF note: Bitwise operator usage intentional to optimize out branching. 
 
            bool xChangedButNotSpecified = ((specified & BoundsSpecified.X) == BoundsSpecified.None) & x != originalBounds.X;
            bool yChangedButNotSpecified = ((specified & BoundsSpecified.Y) == BoundsSpecified.None) & y != originalBounds.Y; 
            bool wChangedButNotSpecified = ((specified & BoundsSpecified.Width) == BoundsSpecified.None) & width != originalBounds.Width;
            bool hChangedButNotSpecified = ((specified & BoundsSpecified.Height) == BoundsSpecified.None) & height != originalBounds.Height;

            if(xChangedButNotSpecified | yChangedButNotSpecified | wChangedButNotSpecified | hChangedButNotSpecified) { 
                // if any of them are changed and specified cache the new value.
 
                if (!xChangedButNotSpecified) originalBounds.X = x; 
                if (!yChangedButNotSpecified) originalBounds.Y = y;
                if (!wChangedButNotSpecified) originalBounds.Width = width; 
                if (!hChangedButNotSpecified) originalBounds.Height = height;

                element.Properties.SetRectangle(_specifiedBoundsProperty, originalBounds);
 
            } else {
                // SetBoundsCore is going to call this a lot with the same bounds.  Avoid the set object 
                // (which indirectly may causes an allocation) if we can. 
                if(element.Properties.ContainsObject(_specifiedBoundsProperty)) {
                    // use MaxRectangle instead of null so we can reuse the SizeWrapper in the property store. 
                    element.Properties.SetRectangle(_specifiedBoundsProperty, LayoutUtils.MaxRectangle);
                }
            }
        } 

        // Used by ToolStripControlHost.Size. 
        internal static void UpdateSpecifiedBounds(IArrangedElement element, int x, int y, int width, int height) { 
            Rectangle bounds = new Rectangle(x, y, width, height);
            element.Properties.SetRectangle(_specifiedBoundsProperty, bounds); 
        }


 
        /// xClearPreferredSizeCache
        ///     clears the preferred size cached for any control that overrides 
        ///     the internal GetPreferredSizeCore method.  DO NOT CALL DIRECTLY 
        ///     unless it is understood how the size of the control is going to be updated.
        /// 


        internal static void xClearPreferredSizeCache(IArrangedElement element) {
            element.Properties.SetSize(_preferredSizeCacheProperty, LayoutUtils.InvalidSize); 
#if DEBUG
            Debug_ClearProperties(element); 
#endif 

            Debug.Assert(xGetPreferredSizeCache(element) == Size.Empty, "Error detected in xClearPreferredSizeCache."); 
        }

        /// xClearAllPreferredSizeCaches
        ///     clears all the caching for an IArrangedElement hierarchy 
        ///     typically done in dispose.
        internal static void xClearAllPreferredSizeCaches(IArrangedElement start) { 
            CommonProperties.xClearPreferredSizeCache(start); 

            ArrangedElementCollection controlsCollection = start.Children; 
            // This may have changed the sizes of our children.
            // PERFNOTE: This is more efficient than using Foreach.  Foreach
            // forces the creation of an array subset enum each time we
            // enumerate 
            for(int i = 0; i < controlsCollection.Count; i++) {
                xClearAllPreferredSizeCaches(controlsCollection[i]); 
            } 
        }
 
        /// xGetPreferredSizeCache
        ///     This value is the cached result of the return value from
        ///     a control's GetPreferredSizeCore implementation when asked
        ///     for a constraining value of LayoutUtils.MaxValue (or Size.Empty too). 
        internal static Size xGetPreferredSizeCache(IArrangedElement element) {
            bool found; 
            Size size = element.Properties.GetSize(_preferredSizeCacheProperty, out found); 
            if (found && (size != LayoutUtils.InvalidSize)) {
               return size; 
            }
            return Size.Empty;
        }
 
        /// xSetPreferredSizeCache
        ///     Sets a control's preferred size.  See xGetPreferredSizeCache. 
        internal static void xSetPreferredSizeCache(IArrangedElement element, Size value) { 
            Debug.Assert(value == Size.Empty || value != xGetPreferredSizeCache(element), "PERF: Caller should guard against setting PreferredSizeCache to original value.");
#if DEBUG 
            Debug_SnapProperties(element);
#endif
            element.Properties.SetSize(_preferredSizeCacheProperty, value);
            Debug.Assert(xGetPreferredSizeCache(element) == value, "Error detected in xGetPreferredSizeCache."); 
        }
 
#endregion 

#region DockAndAnchorLayoutSpecific 

        /// GetAutoSizeMode
        ///     Returns whether or not a control should snap to its smallest size
        ///     or retain its original size and only grow if the preferred size is larger. 
        ///     We tried not having GrowOnly as the default, but it becomes difficult
        ///     to design panels or have Buttons maintain their default size of 100,23 
        internal static AutoSizeMode GetAutoSizeMode(IArrangedElement element) { 
             BitVector32 state = GetLayoutState(element);
             return state[_autoSizeModeSection] == 0 ? AutoSizeMode.GrowOnly : AutoSizeMode.GrowAndShrink; 
        }

        /// GetNeedsDockAndAnchorLayout
        ///     Do not use.  Internal property for DockAndAnchor layout. 
        ///     Returns true if DefaultLayout needs to do any work for this element.
        ///     (Returns false if the element is purely absolutely positioned) 
        internal static bool GetNeedsDockAndAnchorLayout(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
            bool result = state[_dockAndAnchorNeedsLayoutSection] != 0; 

            Debug.Assert(
                (xGetAnchor(element) == DefaultAnchor
                && xGetDock(element) == DefaultDock 
                && GetAutoSize(element) == DefaultAutoSize) != result,
                "Individual values of Anchor/Dock/AutoRelocate/Autosize contradict GetNeedsDockAndAnchorLayout()."); 
 
            return result;
        } 

        /// GetNeedsAnchorLayout
        ///     Do not use.  Internal property for DockAndAnchor layout.
        ///     Returns true if DefaultLayout needs to do anchoring for this element. 
        internal static bool GetNeedsAnchorLayout(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            bool result = (state[_dockAndAnchorNeedsLayoutSection] != 0) && (state[_dockModeSection] == (int) DockAnchorMode.Anchor); 

            Debug.Assert( 
                (xGetAnchor(element) != DefaultAnchor
                || (GetAutoSize(element) != DefaultAutoSize && xGetDock(element) == DockStyle.None)) == result,
                "Individual values of Anchor/Dock/AutoRelocate/Autosize contradict GetNeedsAnchorLayout().");
 
            return result;
        } 
 
        /// GetNeedsDockLayout
        ///     Do not use.  Internal property for DockAndAnchor layout. 
        ///     Returns true if DefaultLayout needs to do docking for this element.
        internal static bool GetNeedsDockLayout(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            bool result = state[_dockModeSection] == (int) DockAnchorMode.Dock && element.ParticipatesInLayout; 

            Debug.Assert(((xGetDock(element) != DockStyle.None) && element.ParticipatesInLayout) == result, 
                "Error detected in GetNeedsDockLayout()."); 

            return result; 
        }

        /// GetSelfAutoSize
        ///     Compat flag for controls that previously sized themselves. 
        ///     Some controls rolled their own implementation of AutoSize in V1 for Dock & Anchor
        ///     In V2, the LayoutEngine is the one responsible for sizing the child items when 
        ///     they're AutoSized.  For new layout engines, the controls will let the layout engine 
        ///     size them, but for DefaultLayout, they're left to size themselves.
        internal static bool GetSelfAutoSizeInDefaultLayout(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
            int value = state[_selfAutoSizingSection];
            return (value == 1);
        } 

 
        /// SetAutoSizeMode 
        ///     Returns whether or not a control should snap to its smallest size
        ///     or retain its original size and only grow if the preferred size is larger. 
        ///     We tried not having GrowOnly as the default, but it becomes difficult
        ///     to design panels or have Buttons maintain their default size of 100,23
        internal static void SetAutoSizeMode(IArrangedElement element, AutoSizeMode mode) {
             BitVector32 state = GetLayoutState(element); 
             state[_autoSizeModeSection] = mode == AutoSizeMode.GrowAndShrink ? 1 : 0;
             SetLayoutState(element, state); 
        } 

        /// ShouldSelfSize 
        ///     Compat flag for controls that previously sized themselves.
        ///     See GetSelfAutoSize comments.
        internal static bool ShouldSelfSize(IArrangedElement element) {
            if (GetAutoSize(element)) { 
                // check for legacy layout engine
                if (element.Container is Control) { 
                    if (((Control)element.Container).LayoutEngine is DefaultLayout) { 
                        return GetSelfAutoSizeInDefaultLayout(element);
                    } 
                }
                // else
                //   - unknown element type
                //   - new LayoutEngine which should set the size to the preferredSize anyways. 
                return false;
            } 
            // autosize false things should selfsize. 
            return true;
        } 

        /// SetSelfAutoSizeInDefaultLayout
        ///     Compat flag for controls that previously sized themselves.
        ///     See GetSelfAutoSize comments. 
        internal static void SetSelfAutoSizeInDefaultLayout(IArrangedElement element, bool value) {
            Debug.Assert(value != GetSelfAutoSizeInDefaultLayout(element), "PERF: Caller should guard against setting AutoSize to original value."); 
 
            BitVector32 state = GetLayoutState(element);
            state[_selfAutoSizingSection] = value ? 1 : 0; 
            SetLayoutState(element, state);

            Debug.Assert(GetSelfAutoSizeInDefaultLayout(element) == value, "Error detected setting AutoSize.");
        } 

 
        /// xGetAnchor - 
        ///     Do not use this.  Use DefaultLayout.GetAnchor.
        ///     NOTE that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static AnchorStyles xGetAnchor(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element);
            AnchorStyles value = (AnchorStyles) state[_dockAndAnchorSection];
            DockAnchorMode mode = (DockAnchorMode) state[_dockModeSection]; 

            // If we are docked, or if it the value is 0, we return DefaultAnchor 
            value = mode == DockAnchorMode.Anchor ? xTranslateAnchorValue(value) : DefaultAnchor; 

            Debug.Assert(mode == DockAnchorMode.Anchor || value == DefaultAnchor, "xGetAnchor needs to return DefaultAnchor when docked."); 
            return value;
        }

        /// xGetAutoSizedAndAnchored - 
        ///     Do not use.  Internal property for DockAndAnchor layout.
        ///     Returns true if the element is both AutoSized and Anchored. 
        internal static bool xGetAutoSizedAndAnchored(IArrangedElement element) { 
            BitVector32 state = GetLayoutState(element);
 
            if (state[_selfAutoSizingSection] != 0) {
                return false;
            }
            bool result = (state[_autoSizeSection] != 0) && (state[_dockModeSection] == (int) DockAnchorMode.Anchor); 
            Debug.Assert(result == (GetAutoSize(element) && xGetDock(element) == DockStyle.None),
                "Error detected in xGetAutoSizeAndAnchored."); 
 
            return result;
        } 

        /// xGetDock
        ///     Do not use this.  Use DefaultLayout.GetDock.
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static DockStyle xGetDock(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            DockStyle value = (DockStyle) state[_dockAndAnchorSection]; 
            DockAnchorMode mode = (DockAnchorMode) state[_dockModeSection];
 
            // If we are anchored we return DefaultDock
            value = mode == DockAnchorMode.Dock ? value : DefaultDock;
            Debug.Assert(ClientUtils.IsEnumValid(value, (int)value, (int)DockStyle.None, (int)DockStyle.Fill), "Illegal value returned form xGetDock.");
 
            Debug.Assert(mode == DockAnchorMode.Dock || value == DefaultDock,
                "xGetDock needs to return the DefaultDock style when not docked."); 
 
            return value;
        } 



        /// xSetAnchor - 
        ///     Do not use this.  Use DefaultLayout.SetAnchor.
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static void xSetAnchor(IArrangedElement element, AnchorStyles value) { 
            Debug.Assert(value != xGetAnchor(element), "PERF: Caller should guard against setting Anchor to original value.");
 
            BitVector32 state = GetLayoutState(element);

            // We translate DefaultAnchor to zero - see the _dockAndAnchorNeedsLayoutSection section above.
            state[_dockAndAnchorSection] = (int) xTranslateAnchorValue(value); 
            state[_dockModeSection] = (int) DockAnchorMode.Anchor;
 
            SetLayoutState(element, state); 

            Debug.Assert(xGetAnchor(element) == value, "Error detected setting Anchor."); 
            Debug.Assert(GetLayoutState(element)[_dockModeSection] == (int) DockAnchorMode.Anchor,
                "xSetAnchor did not set mode to Anchor.");
        }
 
        /// xSetDock
        ///     Do not use this.  Use DefaultLayout.SetDock. 
        ///     Note that Dock and Anchor are exclusive, so we store their enums in the same section. 
        internal static void xSetDock(IArrangedElement element, DockStyle value) {
            Debug.Assert(value != xGetDock(element), "PERF: Caller should guard against setting Dock to original value."); 
            Debug.Assert(ClientUtils.IsEnumValid(value, (int)value, (int)DockStyle.None, (int)DockStyle.Fill), "Illegal value passed to xSetDock.");

            BitVector32 state = GetLayoutState(element);
 
            state[_dockAndAnchorSection] = (int) value;     // See xTranslateAnchorValue for why this works with Dock.None.
            state[_dockModeSection] = (int) (value == DockStyle.None ? DockAnchorMode.Anchor : DockAnchorMode.Dock); 
 
            SetLayoutState(element, state);
 
            Debug.Assert(xGetDock(element) == value, "Error detected setting Dock.");
            Debug.Assert((GetLayoutState(element)[_dockModeSection] == (int) DockAnchorMode.Dock)
                == (value != DockStyle.None), "xSetDock set DockMode incorrectly.");
        } 

        /// xTranslateAnchorValue - 
        ///     Helper method for xGetAnchor / xSetAnchor. 
        ///     We store anchor DefualtAnchor as None and vice versa.
        ///     We either had to do this or map Dock.None to DefaultAnchor (Dock & Anchor share the same section 
        ///     in LayoutState.) Mapping DefaultAnchor to 0 is nicer because we do not need to allocate anything in
        ///     the PropertyStore to get a 0 back from PropertyStore.GetInteger().
        private static AnchorStyles xTranslateAnchorValue(AnchorStyles anchor) {
            switch(anchor) { 
                case AnchorStyles.None:
                    return DefaultAnchor; 
                case DefaultAnchor: 
                    return AnchorStyles.None;
            } 
            return anchor;
        }

#endregion 

#region FlowLayoutSpecific 
        // 

 


        internal static bool GetFlowBreak(IArrangedElement element) {
            BitVector32 state = GetLayoutState(element); 
            int value = state[_flowBreakSection];
            return value == 1; 
        } 

 
        /// SetFlowBreak
        ///     Use FlowLayoutSettings.SetFlowBreak instead.
        ///     See GetFlowBreak.
        internal static void SetFlowBreak(IArrangedElement element, bool value) { 
            Debug.Assert(value != GetFlowBreak(element), "PERF: Caller should guard against setting FlowBreak to original value.");
 
            BitVector32 state = GetLayoutState(element); 
            state[_flowBreakSection] = value ? 1 : 0;
            SetLayoutState(element, state); 

            LayoutTransaction.DoLayout(element.Container, element, PropertyNames.FlowBreak);

            Debug.Assert(GetFlowBreak(element) == value, "Error detected setitng SetFlowBreak."); 
        }
#endregion 
#region AutoScrollSpecific 

        /// GetLayoutBounds - 
        ///     This is the size used to determine whether or not we need scrollbars.
        ///
        ///     Used if the layoutengine always want to return the same layout bounds regardless
        ///     of how it lays out. Example is TLP in RTL and LTR. VSWhidbey# 392913 
        internal static Size GetLayoutBounds(IArrangedElement element) {
            bool found; 
            Size size = element.Properties.GetSize(_layoutBoundsProperty, out found); 
            if (found) {
               return size; 
            }
            return Size.Empty;
        }
 

        /// SetLayoutBounds - 
        ///     This is the size used to determine whether or not we need scrollbars. 
        ///
        ///     The TableLayout engine now calls CommonProperties.SetLayoutBounds when 
        ///     it is done with its layout. The layoutbounds are the total column width
        ///     and the total row height. ScrollableControl checks if the LayoutBounds
        ///     has been set in the CommonProperties when it tries to figure out if it
        ///     should add scrollbars - but only if the layout engine is not the default 
        ///     layout engine. If the bounds has been set, ScrollableControl will use
        ///     those bounds to check if scrollbars should be added, rather than doing 
        ///     its own magic to figure it out. 
        internal static void SetLayoutBounds(IArrangedElement element, Size value) {
            element.Properties.SetSize(_layoutBoundsProperty, value); 
        }


        /// HasLayoutBounds - 
        ///     Returns whether we have layout bounds stored for this element.
        internal static bool HasLayoutBounds(IArrangedElement element) { 
            bool found; 
            element.Properties.GetSize(_layoutBoundsProperty, out found);
            return found; 
        }

#endregion
#region InternalCommonPropertiesHelpers 

        /// GetLayoutState - returns the layout state bit vector from the property store. 
        ///     CAREFUL: this is a copy of the state.  You need to SetLayoutState() to save your changes. 
        ///
        internal static BitVector32 GetLayoutState(IArrangedElement element) { 
            return new BitVector32(element.Properties.GetInteger(_layoutStateProperty));
        }

        internal static void SetLayoutState(IArrangedElement element, BitVector32 state) { 
            element.Properties.SetInteger(_layoutStateProperty, state.Data);
        } 
#endregion 

#region DebugHelpers 
#if DEBUG


        internal static readonly TraceSwitch PreferredSize = new TraceSwitch("PreferredSize", "Debug preferred size assertion"); 

        internal static string Debug_GetChangedProperties(IArrangedElement element) { 
            string diff = ""; 
            if (PreferredSize.TraceVerbose) {
                Hashtable propertyHash = element.Properties.GetObject(_lastKnownStateProperty) as Hashtable; 
                if(propertyHash != null) {
                    foreach (PropertyDescriptor pd in TypeDescriptor.GetProperties(element)) {
                         if (propertyHash.ContainsKey(pd.Name) && (propertyHash[pd.Name].ToString() != pd.Converter.ConvertToString(pd.GetValue(element))))  {
                             diff += "Prop [ " + pd.Name + "] OLD [" + propertyHash[pd.Name] + "] NEW [" + pd.Converter.ConvertToString(pd.GetValue(element)) + "]\r\n"; 
                         }
                    } 
                } 
            }
            else { 
                diff = "For more info, try enabling PreferredSize trace switch";
            }
            return diff;
 
        }
 
        internal static void Debug_SnapProperties(IArrangedElement element) { 
            // DEBUG - store off the old state so we can figure out what has changed in a GPS assert
            element.Properties.SetObject(_lastKnownStateProperty, Debug_GetCurrentPropertyState(element)); 
        }
        internal static void Debug_ClearProperties(IArrangedElement element) {
            // DEBUG - clear off the old state so we can figure out what has changed in a GPS assert
            element.Properties.SetObject(_lastKnownStateProperty, null); 
        }
 
        [SuppressMessage("Microsoft.Design", "CA1031:DoNotCatchGeneralExceptionTypes")] 
        public static Hashtable Debug_GetCurrentPropertyState(object obj) {
 
            Hashtable propertyHash = new Hashtable();
            if (PreferredSize.TraceVerbose) {

                foreach (PropertyDescriptor pd in TypeDescriptor.GetProperties(obj)) { 
                    if (pd.Name == "PreferredSize") {
                        continue;  // avoid accidentally forcing a call to GetPreferredSize 
                    } 
                    try {
                      if (pd.IsBrowsable && !pd.IsReadOnly && pd.SerializationVisibility != DesignerSerializationVisibility.Hidden) { 
                         propertyHash[pd.Name] = pd.Converter.ConvertToString(pd.GetValue(obj));
                      }
                    }
                    catch { 
                    }
                } 
            } 
            return propertyHash;
 
        }


#endif 
#endregion
    } 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.

                        

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