PtsPage.cs source code in C# .NET

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/ DotNET / DotNET / 8.0 / untmp / WIN_WINDOWS / lh_tools_devdiv_wpf / Windows / wcp / Framework / MS / Internal / PtsHost / PtsPage.cs / 1 / PtsPage.cs

                            //---------------------------------------------------------------------------- 
//
// Copyright (C) Microsoft Corporation.  All rights reserved.
//
// File: PtsPage.cs 
//
// Description: Wrapper for PTS page. 
// 
// History:
//  05/05/2003 : [....] - moving from Avalon branch. 
//
//---------------------------------------------------------------------------

using System; 
using System.Collections;
using System.Collections.Generic; 
using System.Diagnostics; 
using System.Security;
using System.Threading; 
using System.Windows;
using System.Windows.Media;
using System.Windows.Documents;
using MS.Internal.Text; 
using MS.Utility;
using System.Windows.Threading; 
using MS.Internal.Documents; 
using MS.Internal.PtsHost.UnsafeNativeMethods;
 
namespace MS.Internal.PtsHost
{
    // ---------------------------------------------------------------------
    // Wrapper for PTS page object. 
    // ---------------------------------------------------------------------
    internal class PtsPage : IDisposable 
    { 
        //--------------------------------------------------------------------
        // 
        //  Constructors
        //
        //-------------------------------------------------------------------
 
        #region Constructors
 
        // ------------------------------------------------------------------ 
        // Constructor.
        // 
        //      section - PTS section: root of the NameTable
        // ------------------------------------------------------------------
        internal PtsPage(Section section) : this()
        { 
            _section = section;
        } 
 
        // -----------------------------------------------------------------
        // Constructor. 
        // ------------------------------------------------------------------
        /// 
        /// Critical - as this calls Critical constructor for SecurityCriticalDataForSet.
        /// Safe - as this just initializes it to IntPtr.Zero. 
        /// 
        [SecurityCritical, SecurityTreatAsSafe] 
        private PtsPage() 
        {
            _ptsPage = new SecurityCriticalDataForSet(IntPtr.Zero); 
        }

        // -----------------------------------------------------------------
        // Finalizer. 
        // -----------------------------------------------------------------
        ~PtsPage() 
        { 
            Dispose(false);
        } 

        // -----------------------------------------------------------------
        // Dispose unmanaged resources.
        // ------------------------------------------------------------------ 
        public void Dispose()
        { 
            Dispose(true); 
            GC.SuppressFinalize(this);
        } 

        #endregion Constructors

        //------------------------------------------------------------------- 
        //
        //  Internal Methods 
        // 
        //--------------------------------------------------------------------
 
        #region Internal Methods

        //--------------------------------------------------------------------
        // Prepare for incremental update process. If update is not possible 
        // make sure that structural cache is in clean state.
        // 
        // Following logic is used for to prepare for reformat/update: 
        // a) if _ptsPage == NULL,  full format + clear NameTable(from DTRs) + clear DTRs
        // b) if NameTable == NULL, full format + clear DTRs (covered by a)) 
        // c) if ForceReformat,     full format + clear DTRs + clean NameTable
        // e) otherwise,            update
        //
        // Allow incremental update if there is a page previously created 
        // and ForceReformat flag is not set.
        // Before formatting needs to make sure that following is done: 
        // 1) If ForceReformat is true, clear entire NameTable. 
        // 2) If there is existing DTR and update is not possible,
        //    invalidate NameTable from the firts position 
        //    stored in DTR list, then clear DTR list.
        //
        // Returns: 'true' if can do incremental update.
        //------------------------------------------------------------------- 
        internal bool PrepareForBottomlessUpdate()
        { 
            bool canUpdate = !IsEmpty; 

            if(!_section.CanUpdate) 
            {
                // Main text segment is null for section, no update possible.
                canUpdate = false;
            } 
            else if (_section.StructuralCache != null)
            { 
                // No update is possible when ForceReformat flag is set. 
                // Clear update information and clear entire NameTable.
                if (_section.StructuralCache.ForceReformat) 
                {
                    canUpdate = false;
                    _section.StructuralCache.ClearUpdateInfo(true);
                } 
                else if (_section.StructuralCache.DtrList != null)
                { 
                    // If there is DRT list and the page cannot be updated, 
                    // invalidate entire NameTable starting from the position
                    // of the first DTR. 
                    // Then clear update info.
                    if (!canUpdate)
                    {
                        _section.InvalidateStructure(); 
                        _section.StructuralCache.ClearUpdateInfo(false);
                    } 
                } 
                // else the NameTable is in a valid state.
            } 

            return canUpdate;
        }
 
        //--------------------------------------------------------------------
        // Prepare for incremental update process of a finite page. Finite 
        // page incremental is always done by PTS as full format with change 
        // delta exposed through queries.
        // Allow incremental update if there is a page previously created. 
        // Before formatting needs to make sure that following is done:
        // a) If ForceReformat is true, clear entire NameTable (reformat needs to
        //    start from the first page).
        // b) If there is existing DTR, invalidate NameTable from the firts position 
        //    stored in DTR list, then clear DTR list.
        // NOTE: If ForceReformat is false and DTR list is null, it means that 
        //       existing NameTable is in a valid state, and format can be done using 
        //       cached portion of the NameTable.
        // 
        //      breakRecord - PageBreakRecord describing start position of the page.
        //
        // Returns: 'true' if can do incremental update.
        //------------------------------------------------------------------- 
        internal bool PrepareForFiniteUpdate(PageBreakRecord breakRecord)
        { 
            bool canUpdate = !IsEmpty; 
#if DEBUG
            Debug.Assert(!canUpdate || _section.CanUpdate); 
#endif
            if (_section.StructuralCache != null)
            {
                // No update is possible when ForceReformat flag is set. 
                // Clear update information and clear entire NameTable.
                if (_section.StructuralCache.ForceReformat) 
                { 
                    canUpdate = false;
                    Debug.Assert(breakRecord == null || !_section.StructuralCache.NukeStructure, "Cannot format from dirty break record unless StructuralCache.NukeStructure is not set."); 

                    _section.InvalidateStructure();
                    // Update structural cache info. The nukeStructureCache parameter is set to true if
                    // the name table is not preserved. If the name table is to be preserved, e.g. for highlight 
                    // changed, we do not nuke structure cache
                    _section.StructuralCache.ClearUpdateInfo(/*Nuke structure cache:*/ _section.StructuralCache.NukeStructure); 
                } 
                // If there is DRT list, invalidate entire NameTable starting from the
                // position of the first DTR. 
                // Then clear update info, if incremental update is not possible.
                else if (_section.StructuralCache.DtrList != null)
                {
                    _section.InvalidateStructure(); 
                    if (!canUpdate)
                    { 
                        _section.StructuralCache.ClearUpdateInfo(false); 
                    }
                } 
                // The NameTable is in a valid state, but cannot do incremental update, because
                // there is no DTR stored anymore.
                else
                { 
                    canUpdate = false;
                    _section.StructuralCache.ClearUpdateInfo(false); 
                } 
            }
            return canUpdate; 
        }

        //-------------------------------------------------------------------
        // Hit tests to the correct IInputElement within the page that the 
        // mouse is over.
        // 
        //      p - Mouse coordinates relative to the page. 
        //
        // Returns: IInputElement that has been hit. 
        //-------------------------------------------------------------------
        internal IInputElement InputHitTest(Point p)
        {
            IInputElement ie = null; 
            if (!IsEmpty)
            { 
                PTS.FSPOINT pt = TextDpi.ToTextPoint(p); 
                ie = InputHitTestPage(pt);
            } 
            return ie;
        }

        //-------------------------------------------------------------------- 
        // Returns rectangles for a specified element.
        // 
        //      e - ContentElement for which rectangles are to be returned 
        //      start - int representing start offset of e
        //      length - int representing number of positions occupied by e 
        //
        // Returns: ArrayList of rectangles. If element is not found or if
        // there is nothing in this page, returns empty ArrayList
        //------------------------------------------------------------------- 
        internal List GetRectangles(ContentElement e, int start, int length)
        { 
            List rectangles = new List(); 
            if (!IsEmpty)
            { 
                rectangles = GetRectanglesInPage(e, start, length);
            }
            return rectangles;
        } 

        //-------------------------------------------------------------------- 
        // Callback for background layout / update 
        //--------------------------------------------------------------------
        private static DispatcherOperationCallback BackgroundUpdateCallback = new DispatcherOperationCallback(PtsPage.BackgroundFormatStatic); 

        //-------------------------------------------------------------------
        // Static function, just proxies over to our real function
        //-------------------------------------------------------------------- 
        private static object BackgroundFormatStatic(object arg)
        { 
            Invariant.Assert(arg is PtsPage); 
            ((PtsPage)arg).BackgroundFormat();
            return null; 
        }

        //-------------------------------------------------------------------
        // Does the work of background format - For now, this is simply an invalidate measure call. 
        // text.
        //------------------------------------------------------------------- 
        private void BackgroundFormat() 
        {
            FlowDocument formattingOwner = _section.StructuralCache.FormattingOwner; 

            if (formattingOwner.Formatter is FlowDocumentFormatter)
            {
                _section.StructuralCache.BackgroundFormatInfo.BackgroundFormat(formattingOwner.BottomlessFormatter, false /* ignoreThrottle */); 
            }
        } 
 
        //-------------------------------------------------------------------
        // Defers remaining text formatting to background - treated as if new text 
        //--------------------------------------------------------------------
        private void DeferFormattingToBackground()
        {
            int cpLast = _section.StructuralCache.BackgroundFormatInfo.CPInterrupted; 
            int cpTextContainer = _section.StructuralCache.BackgroundFormatInfo.CchAllText;
 
            DirtyTextRange dtr = new DirtyTextRange(cpLast, cpTextContainer - cpLast, cpTextContainer - cpLast); 
            _section.StructuralCache.AddDirtyTextRange(dtr);
 
            _backgroundFormatOperation = Dispatcher.CurrentDispatcher.BeginInvoke(DispatcherPriority.Background, BackgroundUpdateCallback, this);
        }

        // ----------------------------------------------------------------- 
        // Create bottomless page.
        // ------------------------------------------------------------------ 
        ///  
        /// Critical - as this calls Critical function FsCreatePageBottomless and also
        ///            calls Critical setter _ptsPage.Value. 
        /// Safe - as this doesn't take arbitrary parameters that can be set.  PtsContext.Context
        ///        is Critical for set and _section.Handle is a handle to managed object that'll
        ///        be validated on callbacks.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal void CreateBottomlessPage() 
        { 
            OnBeforeFormatPage(false, false);
 
            if (TracePageFormatting.IsEnabled)
            {
                TracePageFormatting.Trace(
                    TraceEventType.Start, 
                    TracePageFormatting.FormatPage,
                    PageContext, 
                    PtsContext); 
            }
 
            PTS.FSFMTRBL formattingResult;
            IntPtr ptsPage;
            int fserr = PTS.FsCreatePageBottomless(PtsContext.Context, _section.Handle, out formattingResult, out ptsPage);
            if (fserr != PTS.fserrNone) 
            {
                // Formatting failed and ptsPage may be set to a partially formatted page. Set value to IntPtr.Zero 
                _ptsPage.Value = IntPtr.Zero; 
                PTS.ValidateAndTrace(fserr, PtsContext);
            } 
            else
            {
                // Formatting succeeded. Set page value
                _ptsPage.Value = ptsPage; 
            }
 
            if (TracePageFormatting.IsEnabled) 
            {
                TracePageFormatting.Trace( 
                    TraceEventType.Stop,
                    TracePageFormatting.FormatPage,
                    PageContext,
                    PtsContext); 
            }
 
            OnAfterFormatPage(true, false); 

            if(formattingResult == PTS.FSFMTRBL.fmtrblInterrupted) 
            {
                DeferFormattingToBackground();
            }
        } 

        // ------------------------------------------------------------------ 
        // Update bottomless page. 
        // -----------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical function PTS.FsUpdateBottomlessPage.
        /// Safe - as this function can't be used to pass arbitrary parameters and all
        ///        parameters passed in are Critical for set or opaque handles to PTS.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal void UpdateBottomlessPage() 
        { 
            if (IsEmpty)
            { 
                return;
            }

            OnBeforeFormatPage(false, true); 

            if (TracePageFormatting.IsEnabled) 
            { 
                TracePageFormatting.Trace(
                    TraceEventType.Start, 
                    TracePageFormatting.FormatPage,
                    PageContext,
                    PtsContext);
            } 

            PTS.FSFMTRBL formattingResult; 
            int fserr = PTS.FsUpdateBottomlessPage(PtsContext.Context, _ptsPage.Value, _section.Handle, out formattingResult); 
            if (fserr != PTS.fserrNone)
            { 
                // Do inplace cleanup.
                DestroyPage();

                // Generic error handling. 
                PTS.ValidateAndTrace(fserr, PtsContext);
            } 
 
            if (TracePageFormatting.IsEnabled)
            { 
                TracePageFormatting.Trace(
                    TraceEventType.Stop,
                    TracePageFormatting.FormatPage,
                    PageContext, 
                    PtsContext);
            } 
 
            OnAfterFormatPage(true, true);
 
            if(formattingResult == PTS.FSFMTRBL.fmtrblInterrupted)
            {
                DeferFormattingToBackground();
            } 
        }
 
        // ------------------------------------------------------------------ 
        // Create finite page.
        // ----------------------------------------------------------------- 
        /// 
        /// Critical, because:
        ///     a) calls Critical functions PTS.FsCreateFinitePage,
        ///     b) calls SecurityCriticalDataForSet setter for PTS Page and BreakRecord. 
        /// Safe, because:
        ///     a) the parameters passed in are Critical for set 
        ///     b) Critical objects (PTS Page and BreakRecord) are generated within the function. 
        /// 
        [SecurityCritical, SecurityTreatAsSafe] 
        internal void CreateFinitePage(PageBreakRecord breakRecord)
        {
            OnBeforeFormatPage(true, false);
 
            if (TracePageFormatting.IsEnabled)
            { 
                TracePageFormatting.Trace( 
                    TraceEventType.Start,
                    TracePageFormatting.FormatPage, 
                    PageContext,
                    PtsContext);
            }
 
            // Retrieve PTS break record
            IntPtr brIn = (breakRecord != null) ? breakRecord.BreakRecord : IntPtr.Zero; 
 
            // Create finite page and update layout size information
            PTS.FSFMTR formattingResult; 
            IntPtr brOut;
            IntPtr ptsPage;
            int fserr = PTS.FsCreatePageFinite(PtsContext.Context, brIn, _section.Handle, out formattingResult, out ptsPage, out brOut);
            if (fserr != PTS.fserrNone) 
            {
                // Formatting failed and ptsPage may be set to a partially formatted page. Set value to IntPtr.Zero 
                _ptsPage.Value = IntPtr.Zero; 
                brOut = IntPtr.Zero;
                PTS.ValidateAndTrace(fserr, PtsContext); 
            }
            else
            {
                _ptsPage.Value = ptsPage; 
            }
            if (brOut != IntPtr.Zero) 
            { 
                StructuralCache structuralCache = _section.StructuralCache;
                if (structuralCache != null) 
                {
                    _breakRecord = new PageBreakRecord(PtsContext, new SecurityCriticalDataForSet(brOut), (breakRecord != null) ? breakRecord.PageNumber + 1 : 1);
                }
            } 

            if (TracePageFormatting.IsEnabled) 
            { 
                TracePageFormatting.Trace(
                    TraceEventType.Stop, 
                    TracePageFormatting.FormatPage,
                    PageContext,
                    PtsContext);
            } 

            OnAfterFormatPage(true, false); 
        } 

        // ----------------------------------------------------------------- 
        // Update finite page.
        // -----------------------------------------------------------------
        /// 
        /// Critical, because: 
        ///     a) calls Critical functions PTS.FsUpdateFinitePage,
        ///     b) calls SecurityCriticalDataForSet setter for PTS Page and BreakRecord. 
        /// Safe, because: 
        ///     a) the parameters passed in are Critical for set
        ///     b) Critical objects (PTS Page and BreakRecord) are generated within the function. 
        /// 
        [SecurityCritical, SecurityTreatAsSafe]
        internal void UpdateFinitePage(PageBreakRecord breakRecord)
        { 
            if (IsEmpty)
            { 
                return; 
            }
 
            OnBeforeFormatPage(true, true);

            if (TracePageFormatting.IsEnabled)
            { 
                TracePageFormatting.Trace(
                    TraceEventType.Start, 
                    TracePageFormatting.FormatPage, 
                    PageContext,
                    PtsContext); 
            }

            // Retrieve PTS break record
            IntPtr brIn = (breakRecord != null) ? breakRecord.BreakRecord : IntPtr.Zero; 

            // Create finite page and update layout size information 
            PTS.FSFMTR formattingResult; 
            IntPtr brOut;
            int fserr = PTS.FsUpdateFinitePage(PtsContext.Context, _ptsPage.Value, brIn, 
                                               _section.Handle, out formattingResult, out brOut);

            if (fserr != PTS.fserrNone)
            { 
                // Do inplace cleanup.
                DestroyPage(); 
 
                // Generic error handling.
                PTS.ValidateAndTrace(fserr, PtsContext); 
            }
            if (brOut != IntPtr.Zero)
            {
                StructuralCache structuralCache = _section.StructuralCache; 
                if (structuralCache != null)
                { 
                    _breakRecord = new PageBreakRecord(PtsContext, new SecurityCriticalDataForSet(brOut), (breakRecord != null) ? breakRecord.PageNumber + 1 : 1); 
                }
            } 

            if (TracePageFormatting.IsEnabled)
            {
                TracePageFormatting.Trace( 
                    TraceEventType.Stop,
                    TracePageFormatting.FormatPage, 
                    PageContext, 
                    PtsContext);
            } 

            OnAfterFormatPage(true, true);
        }
 
        //--------------------------------------------------------------------
        // Arrange top level PTS page. 
        //------------------------------------------------------------------- 
        /// 
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails and some 
        ///            PtsHelper functions.
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal void ArrangePage() 
        { 
            if (IsEmpty)
            { 
                return;
            }

            _section.UpdateSegmentLastFormatPositions(); 

            // Get page details 
            PTS.FSPAGEDETAILS pageDetails; 
            PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails));
 

            // Arrange page content. Page content may be simple or complex -
            // depending of set of features used in the content of the page.
            // (1) simple page (contains only one track) 
            // (2) complex page (contains header, page body (list of sections), footnotes and footer)
            if (PTS.ToBoolean(pageDetails.fSimple)) 
            { 
                // (1) simple page (contains only one track)
                // Exceptions don't need to pop, as the top level arrange context will be nulled out if thrown. 
                _section.StructuralCache.CurrentArrangeContext.PushNewPageData(_pageContextOfThisPage, pageDetails.u.simple.trackdescr.fsrc, _finitePage);

                PtsHelper.ArrangeTrack(PtsContext, ref pageDetails.u.simple.trackdescr, PTS.FlowDirectionToFswdir(_section.StructuralCache.PageFlowDirection));
 
                _section.StructuralCache.CurrentArrangeContext.PopPageData();
            } 
            else 
            {
                // (2) complex page (contains header, page body (list of sections), footnotes and footer) 
                //     NOTE: only page body (list of sections is currently supported).
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters);
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify);
                ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes); 

                // cSections == 0, means that page body content is empty. 
                if (pageDetails.u.complex.cSections != 0) 
                {
                    // Retrieve description for each section. 
                    PTS.FSSECTIONDESCRIPTION[] arraySectionDesc;
                    PtsHelper.SectionListFromPage(PtsContext, _ptsPage.Value, ref pageDetails, out arraySectionDesc);

                    // Arrange each section 
                    for (int index = 0; index < arraySectionDesc.Length; index++)
                    { 
                        ArrangeSection(ref arraySectionDesc[index]); 
                    }
                } 
            }

        }
 
        //--------------------------------------------------------------------
        // Update viewport top-level 
        //-------------------------------------------------------------------- 
        /// 
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails and some 
        ///            PtsHelper functions.
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        internal void UpdateViewport(ref PTS.FSRECT viewport) 
        { 
            if (!IsEmpty)
            { 
                // Get page details
                PTS.FSPAGEDETAILS pageDetails;
                PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails));
 
                // Arrange page content. Page content may be simple or complex -
                // depending of set of features used in the content of the page. 
                // (1) simple page (contains only one track) 
                // (2) complex page (contains header, page body (list of sections), footnotes and footer)
                if (PTS.ToBoolean(pageDetails.fSimple)) 
                {
                    // (1) simple page (contains only one track)

                    PtsHelper.UpdateViewportTrack(PtsContext, ref pageDetails.u.simple.trackdescr, ref viewport); 
                }
                else 
                { 
                    // (2) complex page (contains header, page body (list of sections), footnotes and footer)
                    //     NOTE: only page body (list of sections is currently supported). 
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters);
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify);
                    ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
 
                    // cSections == 0, means that page body content is empty.
                    if (pageDetails.u.complex.cSections != 0) 
                    { 
                        // Retrieve description for each section.
                        PTS.FSSECTIONDESCRIPTION[] arraySectionDesc; 
                        PtsHelper.SectionListFromPage(PtsContext, _ptsPage.Value, ref pageDetails, out arraySectionDesc);

                        // Arrange each section
                        for (int index = 0; index < arraySectionDesc.Length; index++) 
                        {
                            UpdateViewportSection(ref arraySectionDesc[index], ref viewport); 
                        } 
                    }
                } 
            }
        }

        // ----------------------------------------------------------------- 
        // Clear update info.
        // ------------------------------------------------------------------ 
        ///  
        /// Critical - as this calls Critical function PTS.FsClearUpdateInfoInPage.
        /// Safe - as this can't be used to pass arbitrary parameters and the parameters 
        ///        passed in are Critical for set.
        /// 
        [SecurityCritical, SecurityTreatAsSafe]
        internal void ClearUpdateInfo() 
        {
            if (!IsEmpty) 
            { 
                // Clear any incremental update state acumulated during update process.
                PTS.Validate(PTS.FsClearUpdateInfoInPage(PtsContext.Context, _ptsPage.Value), PtsContext); 
            }
        }

        // ----------------------------------------------------------------- 
        // Get a visual representing the page's content.
        // ----------------------------------------------------------------- 
        internal ContainerVisual GetPageVisual() 
        {
            if (_visual == null) 
            {
                _visual = new ContainerVisual();
            }
            if (!IsEmpty) 
            {
                UpdatePageVisuals(_calculatedSize); 
            } 
            else
            { 
                _visual.Children.Clear();
            }
            return _visual;
        } 

        #endregion Internal Methods 
 
        //-------------------------------------------------------------------
        // 
        //  Internal Properties
        //
        //--------------------------------------------------------------------
 
        #region Internal Properties
 
        //------------------------------------------------------------------- 
        // BreakRecord indicating break position of the page.
        // 'null' if the page is bottomless or it is the last page 
        //--------------------------------------------------------------------
        internal PageBreakRecord BreakRecord { get { return _breakRecord; } }

        //-------------------------------------------------------------------- 
        // Calculated size of the page.
        //------------------------------------------------------------------- 
        internal Size CalculatedSize { get { return _calculatedSize; } } 

        //-------------------------------------------------------------------- 
        // Content size of the page.
        //-------------------------------------------------------------------
        internal Size ContentSize { get { return _contentSize; } }
 
        //-------------------------------------------------------------------
        // Is it finite page or bottomless? 
        //------------------------------------------------------------------- 
        internal bool FinitePage { get { return _finitePage; } }
 
        //--------------------------------------------------------------------
        // Page context
        //-------------------------------------------------------------------
        internal PageContext PageContext { get { return _pageContextOfThisPage; } } 

        //-------------------------------------------------------------------- 
        // Is during incremental update mode? 
        //--------------------------------------------------------------------
        internal bool IncrementalUpdate { get { return _incrementalUpdate; } } 

        //-------------------------------------------------------------------
        // PTS Host.
        //-------------------------------------------------------------------- 
        internal PtsContext PtsContext { get { return _section.PtsContext; } }
 
        //------------------------------------------------------------------- 
        // Handle to PTS page.
        //------------------------------------------------------------------- 
        internal IntPtr PageHandle { get { return _ptsPage.Value; } }

        //-------------------------------------------------------------------
        // Is being used in a plain text box? 
        //--------------------------------------------------------------------
        internal bool UseSizingWorkaroundForTextBox 
        { 
            get { return _useSizingWorkaroundForTextBox; }
            set { _useSizingWorkaroundForTextBox = value; } 
        }

        #endregion Internal Properties
 
        // -----------------------------------------------------------------
        // 
        //  Private Methods 
        //
        // ------------------------------------------------------------------ 

        #region Private Methods

        // ------------------------------------------------------------------ 
        // Dispose unmanaged resources.
        // ----------------------------------------------------------------- 
        ///  
        /// Finalizer needs to follow rules below:
        ///     a) Your Finalize method must tolerate partially constructed instances. 
        ///     b) Your Finalize method must consider the consequence of failure.
        ///     c) Your object is callable after Finalization.
        ///     d) Your object is callable during Finalization.
        ///     e) Your Finalizer could be called multiple times. 
        ///     f) Your Finalizer runs in a delicate security context.
        /// See: http://blogs.msdn.com/cbrumme/archive/2004/02/20/77460.aspx 
        ///  
        /// 
        /// Critical, because sets value of Critical data for set. 
        /// Safe, because resets the value to IntPtr.Zero.
        /// 
        [SecurityCritical, SecurityTreatAsSafe]
        private void Dispose(bool disposing) 
        {
            if (Interlocked.CompareExchange(ref _disposed, 1, 0) == 0) 
            { 
                // Destroy PTS page.
                // According to following article the entire reachable graph from 
                // a finalizable object is promoted, and it is safe to access its
                // members if they do not have their own finalizers.
                // Hence it is OK to access _section during finalization.
                // See: http://blogs.msdn.com/cbrumme/archive/2004/02/20/77460.aspx 
                if (!IsEmpty)
                { 
                    _section.PtsContext.OnPageDisposed(_ptsPage, disposing, true); 
                }
 
                // Cleanup the state.
                _ptsPage.Value = IntPtr.Zero;
                _breakRecord = null;
                _visual = null; 
                _backgroundFormatOperation = null;
            } 
        } 

        // ------------------------------------------------------------------ 
        // Inlitialize page state before formatting of the page.
        // -----------------------------------------------------------------
        private void OnBeforeFormatPage(bool finitePage, bool incremental)
        { 
            // If not in incremental mode a new PTS page is created, hence there is
            // a need to destroy existing one to avoid unmanaged resources leaking. 
            if (!incremental && !IsEmpty) 
            {
                DestroyPage(); 
            }

            _incrementalUpdate = incremental;
            _finitePage = finitePage; 
            _breakRecord = null;
            _pageContextOfThisPage.PageRect = new PTS.FSRECT(new Rect(_section.StructuralCache.CurrentFormatContext.PageSize)); 
 
            // Ensure we have no background work pending
            if (_backgroundFormatOperation != null) 
            {
                _backgroundFormatOperation.Abort();
            }
 
            if (!_finitePage)
            { 
                _section.StructuralCache.BackgroundFormatInfo.UpdateBackgroundFormatInfo(); 
            }
        } 

        // -----------------------------------------------------------------
        // Clear state and collect necessary data after formatting of the page.
        // ----------------------------------------------------------------- 
        /// 
        /// Critical - as this calls Critical function PtsContext.OnPageCreated. 
        /// Safe - as the parameter it passes it is Critical for set. 
        /// 
        [SecurityCritical, SecurityTreatAsSafe] 
        private void OnAfterFormatPage(bool setSize, bool incremental)
        {
            // Update page size if necessary
            if (setSize) 
            {
                PTS.FSRECT rect = GetRect(); 
                PTS.FSBBOX bbox = GetBoundingBox(); 
                // Workaround for PTS bug 860: get max of the page rect and
                // bounding box of the page. 
                if (!FinitePage && PTS.ToBoolean(bbox.fDefined))
                {
                    rect.dv = Math.Max(rect.dv, bbox.fsrc.dv);
                } 
                // Set page size
                _calculatedSize.Width  = Math.Max(TextDpi.MinWidth, TextDpi.FromTextDpi(rect.du)); 
                _calculatedSize.Height = Math.Max(TextDpi.MinWidth, TextDpi.FromTextDpi(rect.dv)); 
                // Set content size
                if (PTS.ToBoolean(bbox.fDefined)) 
                {
                    _contentSize.Width = Math.Max(Math.Max(TextDpi.FromTextDpi(bbox.fsrc.du), TextDpi.MinWidth), _calculatedSize.Width);
                    _contentSize.Height = Math.Max(TextDpi.MinWidth, TextDpi.FromTextDpi(bbox.fsrc.dv));
                    // In bottomless pages, page size reported by PTS is 
                    // actually content size (see PTS bug 860 for exceptions).
                    // Take PTS calculated value into account. 
                    if (!FinitePage) 
                    {
                        _contentSize.Height = Math.Max(_contentSize.Height, _calculatedSize.Height); 
                    }
                }
                else
                { 
                    _contentSize = _calculatedSize;
                } 
            } 

            if (!IsEmpty) 
            {
                // If page has been just created, notify PtsContext about this fact.
                // PtsContext keeps track of all created pages.
                if (!incremental) 
                {
                    PtsContext.OnPageCreated(_ptsPage); 
                } 
            }
 
            // Make sure that structural cache is in clean state after formatting
            // is done.
            if (_section.StructuralCache != null)
            { 
                _section.StructuralCache.ClearUpdateInfo(false);
            } 
        } 

        // ------------------------------------------------------------------ 
        // Retrieve rectangle the page/subpage.
        // -----------------------------------------------------------------
        /// 
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails. 
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function. 
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        private PTS.FSRECT GetRect() 
        {
            PTS.FSRECT rect;
            // There are 3 cases when calculating page rect:
            // (1) PTS page is not created - return empty rect. 
            // (2) PTS page    - use page PTS APIs to get page rectangle.
            // (3) PTS subpage - use subpage PTS APIs to get page rectangle. 
            if (IsEmpty) 
            {
                // (1) PTS page is not created - empty rect. 
                rect = new PTS.FSRECT();
            }
            else
            { 
                // (2) PTS page - use page PTS APIs to get page rectangle.
                PTS.FSPAGEDETAILS pageDetails; 
                PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails)); 

                // There are 2 different types of PTS page and calculated rectangle depends on it: 
                // (a) simple page (contains only one track) - get rectanglefrom the track.
                // (b) complex page (contains header, page body, footnotes and footer) - get bounding
                //     box of each segment and union them.
                if (PTS.ToBoolean(pageDetails.fSimple)) 
                {
                    // (a) simple page (contains only one track) - get rectanglefrom the track. 
                    rect = pageDetails.u.simple.trackdescr.fsrc; 
                }
                else 
                {
                    // (b) complex page (contains header, page body, footnotes and footer) - get rectangle
                    //     of each segment and union them.
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter) || this.PresenterCache.CurrentPresenter.IsBottomless, ErrorHandler.NotSupportedHeadersFooters); 
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified) || this.PresenterCache.CurrentPresenter.IsBottomless, ErrorHandler.NotSupportedVerticalJustify);
                    ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes); 
 
                    // Since header/footer and footnotes are not supported yet, use page body rectangle
                    rect = pageDetails.u.complex.fsrcPageBody; 
                }
            }
            return rect;
        } 

        // ------------------------------------------------------------------ 
        // Retrieve bounding box of the page/subpage 
        // ------------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails.
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        private PTS.FSBBOX GetBoundingBox() 
        { 
            PTS.FSBBOX bbox = new PTS.FSBBOX();
            // There are 3 cases when calculating bounding box: 
            // (1) PTS page is not created - return empty rect.
            // (2) PTS page - use page PTS APIs to get bounding box.
            // (3) PTS subpage - use subpage PTS APIs to get bounding box.
            if (IsEmpty) 
            {
                // (1) PTS page is not created - bbox is not defined 
            } 
            else
            { 
                // (2) PTS page - use page PTS APIs to get bounding box.
                PTS.FSPAGEDETAILS pageDetails;
                PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails));
 
                // There are 2 different types of PTS page and bounding box calculation depends on it:
                // (a) simple page (contains only one track) - get bounding box from the track. 
                // (b) complex page (contains header, page body, footnotes and footer) - get bounding 
                //     box of each segment and union them.
                if (PTS.ToBoolean(pageDetails.fSimple)) 
                {
                    // (a) simple page (contains only one track) - get bounding box from the track.
                    bbox = pageDetails.u.simple.trackdescr.fsbbox;
                } 
                else
                { 
                    // (b) complex page (contains header, page body, footnotes and footer) - get bounding 
                    //     box of each segment and union them.
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters); 
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify);
                    ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
                    // Since header/footer and footnotes are not supported yet, use page body bounding box
                    bbox = pageDetails.u.complex.fsbboxPageBody; 
                }
            } 
            return bbox; 
        }
 
        //-------------------------------------------------------------------
        // Arrange PTS section.
        //--------------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical functions PTS.FsQuerySectionDetails and
        ///            some PtsHelper functions. 
        ///  
        [SecurityCritical]
        private void ArrangeSection(ref PTS.FSSECTIONDESCRIPTION sectionDesc) 
        {
            // Get section details
            PTS.FSSECTIONDETAILS sectionDetails;
            PTS.Validate(PTS.FsQuerySectionDetails(PtsContext.Context, sectionDesc.pfssection, out sectionDetails)); 

            // There are 2 types of sections: 
            // (1) with page notes - footnotes in section treated as endnotes 
            // (2) with column notes - footnotes in section treated as column notes
            if (PTS.ToBoolean(sectionDetails.fFootnotesAsPagenotes)) 
            {
                // (1) with page notes - footnotes in section treated as endnotes
                ErrorHandler.Assert(sectionDetails.u.withpagenotes.cEndnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
 
                //
 
                Debug.Assert(sectionDetails.u.withpagenotes.cSegmentDefinedColumnSpanAreas == 0); 
                Debug.Assert(sectionDetails.u.withpagenotes.cHeightDefinedColumnSpanAreas == 0);
 
                // cBasicColumns == 0, means that section content is empty.
                // In such case there is nothing to render.
                if (sectionDetails.u.withpagenotes.cBasicColumns != 0)
                { 
                    // Retrieve description for each column.
                    PTS.FSTRACKDESCRIPTION [] arrayColumnDesc; 
                    PtsHelper.TrackListFromSection(PtsContext, sectionDesc.pfssection, ref sectionDetails, out arrayColumnDesc); 

                    // Arrange each column 
                    for (int index = 0; index < arrayColumnDesc.Length; index++)
                    {
                        // Exceptions don't need to pop, as the top level arrange context will be nulled out if thrown.
                        _section.StructuralCache.CurrentArrangeContext.PushNewPageData(_pageContextOfThisPage, arrayColumnDesc[index].fsrc, _finitePage); 

                        PtsHelper.ArrangeTrack(PtsContext, ref arrayColumnDesc[index], sectionDetails.u.withpagenotes.fswdir); 
 
                        _section.StructuralCache.CurrentArrangeContext.PopPageData();
                    } 
                }
            }
            else
            { 
                // (2) with column notes - footnotes in section treated as column notes
                ErrorHandler.Assert(false, ErrorHandler.NotSupportedCompositeColumns); 
            } 
        }
 
        //-------------------------------------------------------------------
        // Update the viewport for a section
        //-------------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical function PTS.FsQuerySectionDetails and some
        ///            PtsHelper functions. 
        ///  
        [SecurityCritical]
        private void UpdateViewportSection(ref PTS.FSSECTIONDESCRIPTION sectionDesc, ref PTS.FSRECT viewport) 
        {
            // Get section details
            PTS.FSSECTIONDETAILS sectionDetails;
            PTS.Validate(PTS.FsQuerySectionDetails(PtsContext.Context, sectionDesc.pfssection, out sectionDetails)); 

            // There are 2 types of sections: 
            // (1) with page notes - footnotes in section treated as endnotes 
            // (2) with column notes - footnotes in section treated as column notes
            if (PTS.ToBoolean(sectionDetails.fFootnotesAsPagenotes)) 
            {
                // (1) with page notes - footnotes in section treated as endnotes
                ErrorHandler.Assert(sectionDetails.u.withpagenotes.cEndnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
 
                //
 
                Debug.Assert(sectionDetails.u.withpagenotes.cSegmentDefinedColumnSpanAreas == 0); 
                Debug.Assert(sectionDetails.u.withpagenotes.cHeightDefinedColumnSpanAreas == 0);
 
                // cBasicColumns == 0, means that section content is empty.
                // In such case there is nothing to render.
                if (sectionDetails.u.withpagenotes.cBasicColumns != 0)
                { 
                    // Retrieve description for each column.
                    PTS.FSTRACKDESCRIPTION [] arrayColumnDesc; 
                    PtsHelper.TrackListFromSection(PtsContext, sectionDesc.pfssection, ref sectionDetails, out arrayColumnDesc); 

                    // Arrange each column 
                    for (int index = 0; index < arrayColumnDesc.Length; index++)
                    {
                        PtsHelper.UpdateViewportTrack(PtsContext, ref arrayColumnDesc[index], ref viewport);
                    } 
                }
            } 
            else 
            {
                // (2) with column notes - footnotes in section treated as column notes 
                ErrorHandler.Assert(false, ErrorHandler.NotSupportedCompositeColumns);
            }
        }
 
        //-------------------------------------------------------------------
        // Update PTS page visuals. 
        //-------------------------------------------------------------------- 
        /// 
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails and some 
        ///            PtsHelper functions.
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function.
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        private void UpdatePageVisuals(Size arrangeSize) 
        { 
            Invariant.Assert(!IsEmpty);
            VisualCollection visualChildren; 

            // Get page details
            PTS.FSPAGEDETAILS pageDetails;
            PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails)); 

            // If there is no change, visual information is valid 
            if (pageDetails.fskupd == PTS.FSKUPDATE.fskupdNoChange) { return; } 
            ErrorHandler.Assert(pageDetails.fskupd != PTS.FSKUPDATE.fskupdShifted, ErrorHandler.UpdateShiftedNotValid);
 
            ContainerVisual pageContentVisual;
            ContainerVisual floatingElementsVisual;

            if(_visual.Children.Count != 2) 
            {
                _visual.Children.Clear(); 
                _visual.Children.Add(new ContainerVisual()); 
                _visual.Children.Add(new ContainerVisual());
            } 

            pageContentVisual = (ContainerVisual)_visual.Children[0];
            floatingElementsVisual = (ContainerVisual)_visual.Children[1];
 
            // Page content may be simple or complex -
            // depending of set of features used in the content of the page. 
            // (1) simple page (contains only one track) 
            // (2) complex page (contains header, page body (list of sections), footnotes and footer)
            if (PTS.ToBoolean(pageDetails.fSimple)) 
            {
                // (1) simple page (contains only one track)
                //     Each track is represented as a ContainerVisual.
                PTS.FSKUPDATE fskupd = pageDetails.u.simple.trackdescr.fsupdinf.fskupd; 
                if (fskupd == PTS.FSKUPDATE.fskupdInherited)
                { 
                    fskupd = pageDetails.fskupd; 
                }
                visualChildren = pageContentVisual.Children; 
                if (fskupd == PTS.FSKUPDATE.fskupdNew)
                {
                    visualChildren.Clear();
                    visualChildren.Add(new ContainerVisual()); 
                }
                // For complex page SectionVisual is added. So, when morphing 
                // complex subpage to simple one, remove SectionVisual. 
                else if (visualChildren.Count == 1 && visualChildren[0] is SectionVisual)
                { 
                    visualChildren.Clear();
                    visualChildren.Add(new ContainerVisual());
                }
                Debug.Assert(visualChildren.Count == 1 && visualChildren[0] is ContainerVisual); 
                ContainerVisual trackVisual = (ContainerVisual)visualChildren[0];
                PtsHelper.UpdateTrackVisuals(PtsContext, trackVisual.Children, pageDetails.fskupd, ref pageDetails.u.simple.trackdescr); 
            } 
            else
            { 
                // (2) complex page (contains header, page body (list of sections), footnotes and footer)
                //     NOTE: only page body (list of sections is currently supported).
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters);
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify); 
                ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
 
                // cSections == 0, means that page body content is empty. 
                bool emptyPage = (pageDetails.u.complex.cSections == 0);
                if (!emptyPage) 
                {
                    // Retrieve description for each section.
                    PTS.FSSECTIONDESCRIPTION [] arraySectionDesc;
                    PtsHelper.SectionListFromPage(PtsContext, _ptsPage.Value, ref pageDetails, out arraySectionDesc); 

                    emptyPage = (arraySectionDesc.Length == 0); 
                    if (!emptyPage) 
                    {
                        ErrorHandler.Assert(arraySectionDesc.Length == 1, ErrorHandler.NotSupportedMultiSection); 

                        // For complex subpage SectionVisual is added. So, when morphing
                        // simple subpage to complex one, remove ParagraphVisual.
                        visualChildren = pageContentVisual.Children; 
                        if (visualChildren.Count == 0)
                        { 
                            visualChildren.Add(new SectionVisual()); 
                        }
                        else if (!(visualChildren[0] is SectionVisual)) 
                        {
                            visualChildren.Clear();
                            visualChildren.Add(new SectionVisual());
                        } 
                        UpdateSectionVisuals((SectionVisual)visualChildren[0], pageDetails.fskupd, ref arraySectionDesc[0]);
                    } 
                } 
                if (emptyPage)
                { 
                    // There is no content, remove all existing visuals.
                    pageContentVisual.Children.Clear();
                }
            } 

            PtsHelper.UpdateFloatingElementVisuals(floatingElementsVisual, _pageContextOfThisPage.FloatingElementList); 
        } 

        //------------------------------------------------------------------- 
        // Update PTS section visuals.
        //--------------------------------------------------------------------
        /// 
        /// Critical - as it calls Critical function PTS.FsQuerySectionDetails and 
        ///            some PtsHelper functions.
        ///  
        [SecurityCritical] 
        private void UpdateSectionVisuals(
            SectionVisual visual, 
            PTS.FSKUPDATE fskupdInherited,
            ref PTS.FSSECTIONDESCRIPTION sectionDesc)
        {
            PTS.FSKUPDATE fskupd = sectionDesc.fsupdinf.fskupd; 
            if (fskupd == PTS.FSKUPDATE.fskupdInherited)
            { 
                fskupd = fskupdInherited; 
            }
            ErrorHandler.Assert(fskupd != PTS.FSKUPDATE.fskupdShifted, ErrorHandler.UpdateShiftedNotValid); 

            // If there is no change, visual information is valid
            if (fskupd == PTS.FSKUPDATE.fskupdNoChange) { return; }
 
            bool emptySection;
 
            // Get section details 
            PTS.FSSECTIONDETAILS sectionDetails;
            PTS.Validate(PTS.FsQuerySectionDetails(PtsContext.Context, sectionDesc.pfssection, out sectionDetails)); 

            // There are 2 types of sections:
            // (1) with page notes - footnotes in section treated as endnotes
            // (2) with column notes - footnotes in section treated as column notes 
            if (PTS.ToBoolean(sectionDetails.fFootnotesAsPagenotes))
            { 
                // (1) with page notes - footnotes in section treated as endnotes 
                ErrorHandler.Assert(sectionDetails.u.withpagenotes.cEndnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);
 
                //

                Debug.Assert(sectionDetails.u.withpagenotes.cSegmentDefinedColumnSpanAreas == 0);
                Debug.Assert(sectionDetails.u.withpagenotes.cHeightDefinedColumnSpanAreas == 0); 

                // cBasicColumns == 0, means that section content is empty. 
                emptySection = (sectionDetails.u.withpagenotes.cBasicColumns == 0); 
                if (!emptySection)
                { 
                    // Retrieve description for each column.
                    PTS.FSTRACKDESCRIPTION [] arrayColumnDesc;
                    PtsHelper.TrackListFromSection(PtsContext, sectionDesc.pfssection, ref sectionDetails, out arrayColumnDesc);
 
                    emptySection = (arrayColumnDesc.Length == 0);
                    if (!emptySection) 
                    { 
                        // Draw column rules.
                        ColumnPropertiesGroup columnProperties = new ColumnPropertiesGroup(_section.Element); 
                        visual.DrawColumnRules(ref arrayColumnDesc, TextDpi.FromTextDpi(sectionDesc.fsrc.v), TextDpi.FromTextDpi(sectionDesc.fsrc.dv), columnProperties);

                        VisualCollection visualChildren = visual.Children;
                        if (fskupd == PTS.FSKUPDATE.fskupdNew) 
                        {
                            visualChildren.Clear(); 
                            for (int index = 0; index < arrayColumnDesc.Length; index++) 
                            {
                                visualChildren.Add(new ContainerVisual()); 
                            }
                        }
                        ErrorHandler.Assert(visualChildren.Count == arrayColumnDesc.Length, ErrorHandler.ColumnVisualCountMismatch);
                        for (int index = 0; index < arrayColumnDesc.Length; index++) 
                        {
                            ContainerVisual trackVisual = (ContainerVisual)visualChildren[index]; 
                            PtsHelper.UpdateTrackVisuals(PtsContext, trackVisual.Children, fskupd, ref arrayColumnDesc[index]); 
                        }
                    } 
                }
            }
            else
            { 
                // (2) with column notes - footnotes in section treated as column notes
                ErrorHandler.Assert(false, ErrorHandler.NotSupportedCompositeColumns); 
                emptySection = true; 
            }
            if (emptySection) 
            {
                // There is no content, remove all existing visuals.
                visual.Children.Clear();
            } 
        }
 
        //-------------------------------------------------------------------- 
        // Hit tests to the correct IInputElement within the page that the
        // mouse is over. 
        //-------------------------------------------------------------------
        /// 
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails and some
        ///            PtsHelper functions. 
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed
        ///        in are either Critical for set or are generated within the function. 
        ///  
        [SecurityCritical, SecurityTreatAsSafe]
        private IInputElement InputHitTestPage(PTS.FSPOINT pt) 
        {
            IInputElement ie = null;

            if(_pageContextOfThisPage.FloatingElementList != null) 
            {
                for(int index = 0; index < _pageContextOfThisPage.FloatingElementList.Count && ie == null; index++) 
                { 
                    BaseParaClient floatingElement = _pageContextOfThisPage.FloatingElementList[index];
 
                    ie = floatingElement.InputHitTest(pt);
                }
            }
 
            if(ie == null)
            { 
                // Get page details 
                PTS.FSPAGEDETAILS pageDetails;
                PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails)); 

                // Hittest page content. Page content may be simple or complex -
                // depending of set of features used in the content of the page.
                // (1) simple page (contains only one track) 
                // (2) complex page (contains header, page body (list of sections), footnotes and footer)
                if (PTS.ToBoolean(pageDetails.fSimple)) 
                { 
                    // (1) simple page (contains only one track)
                    if (pageDetails.u.simple.trackdescr.fsrc.Contains(pt)) 
                    {
                        ie = PtsHelper.InputHitTestTrack(PtsContext, pt, ref pageDetails.u.simple.trackdescr);
                    }
                } 
                else
                { 
                    // (2) complex page (contains header, page body (list of sections), footnotes and footer) 
                    //     NOTE: only page body (list of sections is currently supported).
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters); 
                    //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify);
                    ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);

                    // cSections == 0, means that page body content is empty. 
                    // In such case there is nothing to render.
                    if (pageDetails.u.complex.cSections != 0) 
                    { 
                        // Retrieve description for each section.
                        PTS.FSSECTIONDESCRIPTION [] arraySectionDesc; 
                        PtsHelper.SectionListFromPage(PtsContext, _ptsPage.Value, ref pageDetails, out arraySectionDesc);

                        // Hittest each section
                        for (int index = 0; index < arraySectionDesc.Length && ie == null; index++) 
                        {
                            if (arraySectionDesc[index].fsrc.Contains(pt)) 
                            { 
                                ie = InputHitTestSection(pt, ref arraySectionDesc[index]);
                            } 
                        }
                    }
                }
            } 

            return ie; 
        } 

        //-------------------------------------------------------------------- 
        // Returns ArrayList of rectangles for the ContentElement e within
        // the page. If element is not found, returns empty ArrayList
        // start: int representing start offset of e
        // length: int representing number of positions occupied by e 
        // -----------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical function PTS.FsQueryPageDetails and some 
        ///            PtsHelper functions.
        /// Safe - as this can't be be used to pass arbitrary parameters.  All parameters passed 
        ///        in are either Critical for set or are generated within the function.
        /// 
        [SecurityCritical, SecurityTreatAsSafe]
        private List GetRectanglesInPage(ContentElement e, int start, int length) 
        {
            // Rectangles to be returned 
            List rectangles = new List(); 
            Invariant.Assert(!IsEmpty);
 
            // Get page details
            PTS.FSPAGEDETAILS pageDetails;
            PTS.Validate(PTS.FsQueryPageDetails(PtsContext.Context, _ptsPage.Value, out pageDetails));
 
            // Check for page content - if simple, contains only one track and we call the helper to
            // find the element within that track. If complex, we must traverse sections within the content. 
            if (PTS.ToBoolean(pageDetails.fSimple)) 
            {
                // (1) simple page (contains only one track) 
                rectangles = PtsHelper.GetRectanglesInTrack(PtsContext, e, start, length, ref pageDetails.u.simple.trackdescr);
            }
            else
            { 
                // (2) complex page (contains header, page body (list of sections), footnotes and footer)
                //     NOTE: only page body (list of sections is currently supported). 
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fTopBottomHeaderFooter), ErrorHandler.NotSupportedHeadersFooters); 
                //ErrorHandler.Assert(!PTS.ToBoolean(pageDetails.u.complex.fJustified), ErrorHandler.NotSupportedVerticalJustify);
                ErrorHandler.Assert(pageDetails.u.complex.cFootnoteColumns == 0, ErrorHandler.NotSupportedFootnotes); 

                // cSections == 0, means that page body content is empty.
                // In such case there is nothing to render.
                if (pageDetails.u.complex.cSections != 0) 
                {
                    // Retrieve description for each section. 
                    PTS.FSSECTIONDESCRIPTION[] arraySectionDesc; 
                    PtsHelper.SectionListFromPage(PtsContext, _ptsPage.Value, ref pageDetails, out arraySectionDesc);
 
                    // Check each section for element
                    for (int index = 0; index < arraySectionDesc.Length; index++)
                    {
                        rectangles = GetRectanglesInSection(e, start, length, ref arraySectionDesc[index]); 

                        // For consistency, helpers cannot return null for rectangles 
                        Invariant.Assert(rectangles != null); 
                        if (rectangles.Count != 0)
                        { 
                            // Found element and rectangles. We will sotp here because the element has been
                            // found and it cannot span more than one section. So we do not need to search
                            // the rest of the sections
                            break; 
                        }
                    } 
                } 
                else
                { 
                    // No complex content, return empty list
                    rectangles = new List();
                }
            } 
            return rectangles;
        } 
 
        //-------------------------------------------------------------------
        // Hit tests to the correct IInputElement within the section that the 
        // mouse is over.
        //-------------------------------------------------------------------
        /// 
        /// Critical - as this calls Critical functions PTS.FsQuerySectionDetails and 
        ///            some PtsHelper functions.
        ///  
        [SecurityCritical] 
        private IInputElement InputHitTestSection(
            PTS.FSPOINT pt, 
            ref PTS.FSSECTIONDESCRIPTION sectionDesc)
        {
            IInputElement ie = null;
 
            // Get section details
            PTS.FSSECTIONDETAILS sectionDetails; 
            PTS.Validate(PTS.FsQuerySectionDetails(PtsContext.Context, sectionDesc.pfssection, out sectionDetails)); 

            // There are 2 types of sections: 
            // (1) with page notes - footnotes in section treated as endnotes
            // (2) with column notes - footnotes in section treated as column notes
            if (PTS.ToBoolean(sectionDetails.fFootnotesAsPagenotes))
            { 
                // (1) with page notes - footnotes in section treated as endnotes
                ErrorHandler.Assert(sectionDetails.u.withpagenotes.cEndnoteColumns == 0, ErrorHandler.NotSupportedFootnotes); 
 
                //
 
                Debug.Assert(sectionDetails.u.withpagenotes.cSegmentDefinedColumnSpanAreas == 0);
                Debug.Assert(sectionDetails.u.withpagenotes.cHeightDefinedColumnSpanAreas == 0);

                // cBasicColumns == 0, means that section content is empty. 
                // In such case there is nothing to hit-test.
                if (sectionDetails.u.withpagenotes.cBasicColumns != 0) 
                { 
                    // Retrieve description for each column.
                    PTS.FSTRACKDESCRIPTION [] arrayColumnDesc; 
                    PtsHelper.TrackListFromSection(PtsContext, sectionDesc.pfssection, ref sectionDetails, out arrayColumnDesc);

                    // Hittest each column
                    for (int index = 0; index < arrayColumnDesc.Length; index++) 
                    {
                        if (arrayColumnDesc[index].fsrc.Contains(pt)) 
                        { 
                            ie = PtsHelper.InputHitTestTrack(PtsContext, pt, ref arrayColumnDesc[index]);
                            break; 
                        }
                    }
                }
            } 
            else
            { 
                // (2) with column notes - footnotes in section treated as column notes 
                ErrorHandler.Assert(false, ErrorHandler.NotSupportedCompositeColumns);
            } 

            return ie;
        }
 
        //--------------------------------------------------------------------
        // Returns ArrayList of rectangles for the ContentElement e in the 
        // section if it is found in the section. Returns empty ArrayList 
        // if section does not contain e. e may span multiple tracks in which
        // case we will have more than one rectangle 
        // start: int representing start offset of e
        // length: int representing number of positions occupied by e
        //-------------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical functions PTS.FsQuerySectionDetails
        ///            and some PtsHelper functions. 
        ///  
        [SecurityCritical]
        private List GetRectanglesInSection( 
            ContentElement e,
            int start,
            int length,
            ref PTS.FSSECTIONDESCRIPTION sectionDesc) 
        {
            // Get section details 
            PTS.FSSECTIONDETAILS sectionDetails; 
            PTS.Validate(PTS.FsQuerySectionDetails(PtsContext.Context, sectionDesc.pfssection, out sectionDetails));
 
            // Declare ArrayList to be returned
            List rectangles = new List();

            // There are 2 types of sections: 
            // (1) with page notes - footnotes in section treated as endnotes
            // (2) with column notes - footnotes in section treated as column notes 
            if (PTS.ToBoolean(sectionDetails.fFootnotesAsPagenotes)) 
            {
                // (1) with page notes - footnotes in section treated as endnotes 
                ErrorHandler.Assert(sectionDetails.u.withpagenotes.cEndnoteColumns == 0, ErrorHandler.NotSupportedFootnotes);

                //
 
                Debug.Assert(sectionDetails.u.withpagenotes.cSegmentDefinedColumnSpanAreas == 0);
                Debug.Assert(sectionDetails.u.withpagenotes.cHeightDefinedColumnSpanAreas == 0); 
 
                // cBasicColumns == 0, means that section content is empty.
                // In such case there is nothing to hit-test. 
                if (sectionDetails.u.withpagenotes.cBasicColumns != 0)
                {
                    // Retrieve description for each column.
                    PTS.FSTRACKDESCRIPTION[] arrayColumnDesc; 
                    PtsHelper.TrackListFromSection(PtsContext, sectionDesc.pfssection, ref sectionDetails, out arrayColumnDesc);
 
                    // Check each column for element or part of element - element may span multiple 
                    // columns/tracks
                    for (int index = 0; index < arrayColumnDesc.Length; index++) 
                    {
                        // See if any rectangles for the element are found in this track
                        List trackRectangles = PtsHelper.GetRectanglesInTrack(PtsContext, e, start, length, ref arrayColumnDesc[index]);
 
                        // For consistency, rectangles collection is never null, only empty
                        Invariant.Assert(trackRectangles != null); 
                        if (trackRectangles.Count != 0) 
                        {
                            // Add rectangles found in this track to rectangles for element 
                            rectangles.AddRange(trackRectangles);
                        }
                    }
                } 
            }
            else 
            { 
                // (2) with column notes - footnotes in section treated as column notes
                ErrorHandler.Assert(false, ErrorHandler.NotSupportedCompositeColumns); 
            }

            return rectangles;
        } 

        // ------------------------------------------------------------------ 
        // Destroy page - release unmanaged resources. 
        // ------------------------------------------------------------------
        ///  
        /// Critical - as this calls Critical setter _ptsPage.Value.
        /// Safe - as this just sets it to IntPtr.Zero which is safe.
        /// 
        [SecurityCritical, SecurityTreatAsSafe] 
        private void DestroyPage()
        { 
            if (_ptsPage.Value != IntPtr.Zero) 
            {
                PtsContext.OnPageDisposed(_ptsPage, true, false); 
                _ptsPage.Value = IntPtr.Zero;
            }
        }
 
        #endregion Private Methods
 
        // ----------------------------------------------------------------- 
        //
        //  Private Properties 
        //
        // ------------------------------------------------------------------

        #region Private Properties 

        private bool IsEmpty 
        { 
            get
            { 
                return (_ptsPage.Value == IntPtr.Zero);
            }
        }
 
        #endregion Private Properties
 
        // ----------------------------------------------------------------- 
        //
        //  Private Fields 
        //
        // -----------------------------------------------------------------

        #region Private Fields 

        // ----------------------------------------------------------------- 
        // PTS section - root of the NameTable. 
        // ------------------------------------------------------------------
        private readonly Section _section; 

        //-------------------------------------------------------------------
        // BreakRecord indicating break position of the page.
        //-------------------------------------------------------------------- 
        private PageBreakRecord _breakRecord;
 
        //-------------------------------------------------------------------- 
        // Visual node representing content of the page.
        //------------------------------------------------------------------- 
        private ContainerVisual _visual;

        //--------------------------------------------------------------------
        // Handle to pending background format operation 
        //-------------------------------------------------------------------
        private DispatcherOperation _backgroundFormatOperation; 
 
        // -----------------------------------------------------------------
        // Calculated size of the page. 
        // -----------------------------------------------------------------
        private Size _calculatedSize = new Size();

        // ------------------------------------------------------------------ 
        // Content size of the page.
        // ----------------------------------------------------------------- 
        private Size _contentSize = new Size(); 

        // ------------------------------------------------------------------ 
        // Context the current page provides for its content.
        // ------------------------------------------------------------------
        private PageContext _pageContextOfThisPage = new PageContext();
 

        // ----------------------------------------------------------------- 
        // PTS page object. 
        // ------------------------------------------------------------------
        ///  
        /// _ptsPage is passed directly Critical unmanaged PTS functions which
        /// write to memory.  So this should be Critical for set.
        /// 
        private SecurityCriticalDataForSet _ptsPage; 

        // ----------------------------------------------------------------- 
        // Is it finite page? 
        // -----------------------------------------------------------------
        private bool _finitePage; 

        //-------------------------------------------------------------------
        // Is during incremental update mode?
        //-------------------------------------------------------------------- 
        private bool _incrementalUpdate;
 
        //------------------------------------------------------------------- 
        // Is being used in a plain text box?
        //-------------------------------------------------------------------- 
        internal bool _useSizingWorkaroundForTextBox;

        // ------------------------------------------------------------------
        // Is object already disposed. 
        // -----------------------------------------------------------------
        private int _disposed; 
 
        #endregion Private Fields
    } 

    // ----------------------------------------------------------------------
    // A page context object represents the current page or subpage being formatted.
    // It allows for collection of floating elements, and provides sizing information for RTL mirroring. 
    // ---------------------------------------------------------------------
    internal class PageContext 
    { 
        internal PTS.FSRECT PageRect { get { return _pageRect; } set { _pageRect = value; } }
 
        internal List FloatingElementList { get { return _floatingElementList; } }

        internal void AddFloatingParaClient(BaseParaClient floatingElement)
        { 
            if(_floatingElementList == null)
            { 
                _floatingElementList = new List(); 
            }
 
            if(!_floatingElementList.Contains(floatingElement))
            {
                _floatingElementList.Add(floatingElement);
            } 
        }
 
        internal void RemoveFloatingParaClient(BaseParaClient floatingElement) 
        {
            if(_floatingElementList.Contains(floatingElement)) 
            {
                _floatingElementList.Remove(floatingElement);
            }
 
            if(_floatingElementList.Count == 0)
            { 
                _floatingElementList = null; 
            }
        } 

        // -----------------------------------------------------------------
        // Floating element list
        // ----------------------------------------------------------------- 
        private List _floatingElementList;
 
        // ------------------------------------------------------------------ 
        // Page rect
        // ----------------------------------------------------------------- 
        private PTS.FSRECT _pageRect;
    }
}

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


                        

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