Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

General purpose

I am developing a .NET user control that can be used for multipurpose graphics rendering using Direct2D. This control is based on the ID2D1HwndRenderTarget interface with a ID2D1BitmapRenderTarget back-buffer/double-buffer.

Background

I have written a wrapper using C++/CLI that exposes a set of managed wrapper objects for Direct2D, and I have a designed a Singleton resource manager for Direct2D bitmaps that code can send to the binary data to, and get a resource key back from, which code can then pass in a message to the user control to render a bitmap.

Usage so far

I have been able to load bitmaps, JPEGs, custom imaging formats and the like and send them to the Direct2D render control all with no issue. I've written a custom video decoder that could load frames from a 15-fps video (decoding in a background thread) and render them from events raised by a Win32 multimedia timer, no problem.

Issue

My issue is that when I attempted to expand out from a single multimedia format into something more flexible (specifically connecting to LibAV/ffmpeg), the Direct2D render control starts to crash display drivers. This does not happen when frames are rendered sequentially (using a button to render the next frame, rather than a timer). It also does not happen straightaway. It also does not happen when I block inside the Win32 timer callback, but does when I use a Mutex to raise a thread that will free the timer callback up and let the interim thread instruct the control to render.

Symptoms

If I start a timer and attach to its elapsed event methods that will cause the next render, it will typically play fine for around 2-20 seconds. Using smaller video, I can get longer playback before the issue starts. If I play back 1080p video, I can get the crash usually within 5 seconds without contest. Playback will start fine, maybe have a hiccup here or there before catching up.

  • Eventually, I will start to see flickering, as if the background color is rendered but the frame is not. Additional frames may or may not later render, but this is very short-lived.
  • After the flicker, if I stop the timer quickly enough there will be no crash.
  • If I do not stop in time:
    • If I'm lucky (maybe 10% of the time), frames will stop rendering, be stuck on one frame until I resize the control, at which point only black is drawn to the entire control. (I've read that this may indicate a lost device context for DirectX rendering, but have not seen much more.)
    • If I'm unlucky, the display driver will crash, Windows recovers and restarts the driver, after which point the EndDraw will finally tell me that an error has occurred and return D2DERR_RECREATE_TARGET.
    • If I am really unlucky, the display will start to look like a kaleidoscope and I'll have to power off my machine, and I just wasted 5 minutes booting, logging on, loading Visual Studio and my solution, loading the video and lost all my debugging data.

I want to think that there is some sort of race condition that I am missing, but every time I run through the rendering code, it appears that it should be properly locked.

Render Control's Code

using System;
using System.Drawing;
using System.Windows.Forms;

using Direct2D = Bardez.Projects.DirectX.Direct2D;
using ExternalPixelEnums = Bardez.Projects.FileFormats.MediaBase.Video.Pixels.Enums;
using Bardez.Projects.DirectX.Direct2D;
using Bardez.Projects.FileFormats.MediaBase.Video;
using Bardez.Projects.FileFormats.MediaBase.Video.Enums;
using Bardez.Projects.Win32;

namespace Bardez.Projects.Output.Visual
{
    /// <summary>Represents a rendering target for Direct2D.</summary>
    /// <remarks>
    ///     To use this control, an external component will need to supply bitmap data. This does not need to be a GDI+ Bitmap class.
    ///     However, the container for this control will need to push data into this control.
    ///     So, in the case of a movie player, we'd see the following model:
    ///         * decompress a frame.
    ///         * push frame to control
    ///         * invoke Invalidate
    ///             * control will render the bitmap
    ///         * sleep just a little bit
    ///         * go back to first step
    /// </remarks>
    public class Direct2dRenderControl : VisualRenderControl
    {
        /*
        *   Locking orientation:
        *       There are two rendering targets: a GDI display and a bitmap back buffer.
        *       There are 5 'real' locking operations:
        *           Rendering to the GDI display (OnPaint)
        *           Rendering to the back buffer (DrawBitmapToBuffer, DiscardCurrentBuffer)
        *           Setting the current displayed frame (SetRenderFrame)
        *           Resource Freeing (FreeFrameResource)
        *           Resizing (OnResize)
        *
        *       Briefly, the overarching effects of these five are:
        *           Rendering
        *               Utilizes the buffer and the display
        *           Back Buffer
        *               Utilizes the buffer and if mid-render could affect this display
        *           Set Frame
        *               Sets the buffer's displayed image
        *           Resource Freeing
        *               Affects the buffer if a resource is refernced
        *           Resizing
        *               Resizes the render control and the bitmap, uses the frame set by set
        *
        *       Locking plan:
        *           Resize should block set, free and back buffer
        *           Render should block back buffer, control
        *           Set frame should block resize and back buffer
        *           Free should block back buffer,
        *           Back buffer should block rendering, setting, resizing, freeing
        *
        *       Basically, lock everything at the process level, and not at the access level.
        */

        #region Fields
        /// <summary>Represents a Win32 HWND render target for Direct2D</summary>
        private ControlRenderTarget ctrlRenderTarget;

        /// <summary>Represents a drawing buffer</summary>
        private BitmapRenderTarget bmpRenderTarget;

        /// <summary>Represents a drawing buffer, used solely to create bitmaps</summary>
        private BitmapRenderTarget resourceBmpRenderTarget;

        /// <summary>Represents a buffer drawing command lock</summary>
        private Object controlBufferLock;

        /// <summary>Represents a paint/render drawing command lock</summary>
        private Object controlPaintRenderLock;

        /// <summary>Locking object reference for resource management (memory bitmaps, etc.)</summary>
        private Object resourceLock;

        /// <summary>Represents the key to accessing the currently set key</summary>
        protected Int32 currentFrameKey;
        #endregion


        #region Properties
        /// <summary>Indicates whether there is a frame set for this control</summary>
        protected Boolean HasFrameSet
        {
            get { return currentFrameKey > -1; }
        }

        /// <summary>Exposes a wrapper for the bitmap render target</summary>
        protected BitmapRenderTarget BmpRenderTarget
        {
            get { return this.bmpRenderTarget; }
            set
            {
                lock (this.controlBufferLock)
                {
                    if (this.bmpRenderTarget != null)
                        this.bmpRenderTarget.Dispose();

                    this.bmpRenderTarget = value;
                }
            }
        }

        /// <summary>Exposes a wrapper for the bitmap render target</summary>
        protected BitmapRenderTarget ResourceBmpRenderTarget
        {
            get { return this.resourceBmpRenderTarget; }
            set
            {
                lock (this.resourceLock)
                {
                    if (this.resourceBmpRenderTarget != null)
                        this.resourceBmpRenderTarget.Dispose();

                    this.resourceBmpRenderTarget = value;
                }
            }
        }

        /// <summary>Represents a Win32 HWND render target for Direct2D</summary>
        protected ControlRenderTarget CtrlRenderTarget
        {
            get { return this.ctrlRenderTarget; }
            set
            {
                lock (this.controlPaintRenderLock)
                {
                    if (this.ctrlRenderTarget != null)
                        this.ctrlRenderTarget.Dispose();

                    this.ctrlRenderTarget = value;
                }
            }
        }
        #endregion


        #region Construction
        /// <summary>Default constructor</summary>
        public Direct2dRenderControl() : base()
        {
            this.controlBufferLock = new Object();
            this.controlPaintRenderLock = new Object();
            this.resourceLock = new Object();

            this.currentFrameKey = -1;
            this.InitializeControlDirect2D();
        }

        /// <summary>Initializes the Direct2D</summary>
        protected void InitializeControlDirect2D()
        {
            //disable Windows background draw
            this.SetStyle(ControlStyles.UserPaint | ControlStyles.AllPaintingInWmPaint, true);

            // Build options on the Control render target
            PixelFormat format = new PixelFormat(DXGI_ChannelFormat.FORMAT_B8G8R8A8_UNORM, AlphaMode.Unknown);  //32-bit color, pure alpha
            DpiResolution res = Direct2dResourceManager.Instance.Factory.GetDesktopDpi();
            RenderTargetProperties rtProp = new RenderTargetProperties(RenderTargetType.Default, format, res, RenderTargetUsage.GdiCompatible, DirectXVersion.DirectX9);

            //Build out control render target properties
            HwndRenderTargetProperties hwndProp = new HwndRenderTargetProperties(this.Handle, new SizeU(this.Size), PresentationOptions.RetainContents);

            lock (this.controlPaintRenderLock)
            {
                // populate the Control rendering target
                ResultCode result = Direct2dResourceManager.Instance.Factory.CreateHwndRenderTarget(rtProp, hwndProp, out this.ctrlRenderTarget);

                lock (this.controlBufferLock)
                {
                    // create a bitmap rendering targets
                    this.CtrlRenderTarget.CreateCompatibleRenderTarget(out this.bmpRenderTarget);

                    lock (this.resourceLock)
                        this.CtrlRenderTarget.CreateCompatibleRenderTarget(out this.resourceBmpRenderTarget);
                }
            }
        }
        #endregion


        #region Destruction
        /// <summary>Disposal code; releases unmanaged resources</summary>
        /// <param name="disposing">True indicates to dispose managed resources</param>
        protected override void Dispose(Boolean disposing)
        {
            this.ResourceBmpRenderTarget = null;    //property disposes
            this.BmpRenderTarget = null;            //property disposes
            this.CtrlRenderTarget = null;           //property disposes
            base.Dispose(disposing);
        }

        /// <summary>Disposal</summary>
        ~Direct2dRenderControl()
        {
            this.Dispose();
        }
        #endregion


        #region Event Raising
        /// <summary>Draws the output, then raises the paint event</summary>
        /// <param name="e">Painting Event arguments</param>
        protected override void OnPaint(PaintEventArgs e)
        {
            lock (this.controlPaintRenderLock)
            {
                lock (this.controlBufferLock)
                {
                    this.SuspendLayout();

                    this.OnPaintBackground(e);

                    Direct2D.Bitmap bmp;
                    ResultCode result;

                    result = this.BmpRenderTarget.GetBitmap(out bmp);

                    Direct2D.RectangleF rect = new Direct2D.RectangleF(e.ClipRectangle);

                    this.CtrlRenderTarget.BeginDraw();

                    this.CtrlRenderTarget.DrawBitmap(bmp, rect, 1.0F, BitmapInterpolationMode.Linear, rect);

                    result = this.CtrlRenderTarget.EndDraw();

                    bmp.Dispose();

                    if (result != ResultCode.Success_OK)
                        throw new ApplicationException(String.Format("Error encountered during draw: '{0}'", result.ToString()));

                    base.OnPaint(e);

                    this.ResumeLayout();
                }
            }
        }

        /// <summary>Overides the resize method</summary>
        /// <param name="e">Parameters for the resize event</param>
        protected override void OnResize(EventArgs e)
        {
            lock (this.controlPaintRenderLock)
            {
                lock (this.controlBufferLock)
                {
                    //Null check since resize fires before it is constructed, with the size event during parent's InitializeComponent
                    if (this.CtrlRenderTarget != null)
                    {
                        this.SuspendLayout();

                        //resize the existing control rendering target
                        this.CtrlRenderTarget.Resize(new SizeU(this.Size));

                        //I also need to resize the buffer, but can't. Instead, create a new one, then copy the existing one. Kind of lame.
                        this.ResizeBitmapRenderTarget();

                        base.OnResize(e);

                        //cause another draw
                        this.Invalidate(new Rectangle(new Point(0, 0), this.Size));

                        this.ResumeLayout();
                    }
                }
            }
        }

        /// <summary>Overridden Paint background method</summary>
        /// <param name="e">Paint event arguments</param>
        /// <remarks>
        ///     Made empty to avoid GDI and Direct2D writing to the same control; when moving the control around
        ///     or rendering at high speeds, the dreaded WinForms flicker was introduced.
        ///     The background painting can be found in the <see cref="FillBufferRenderTarget"/> method,
        ///     which fills the bitmap back buffer with the control's background color.
        /// </remarks>
        protected override void OnPaintBackground(PaintEventArgs e) {  }
        #endregion


        #region Drawing
        /// <summary>Resizes the bitmap rendering target buffer</summary>
        /// <remarks>Does not lock the GDI render target. The OnResize or other callers lock instead.</remarks>
        protected void ResizeBitmapRenderTarget()
        {
            lock (this.controlPaintRenderLock)
            {
                lock (this.controlBufferLock)
                {
                    using (BitmapRenderTarget bmpCurr = this.BmpRenderTarget)
                    {
                        BitmapRenderTarget bmpNew;

                        ResultCode result = this.CtrlRenderTarget.CreateCompatibleRenderTarget(out bmpNew);

                        this.DuplicateDoubleBufferContents(bmpNew);

                        //Property disposes and locks
                        this.BmpRenderTarget = bmpNew;
                    }
                }
            }
        }

        /// <summary>Draws a Bitmap to the render buffer</summary>
        /// <param name="bmp">Direct2D bitmap to draw to the buffer.</param>
        protected void DrawBitmapToBuffer(Direct2D.Bitmap bmp, Point2dF origin)
        {
            lock (this.controlBufferLock)
            {
                lock (this.resourceLock)
                {
                    Direct2D.SizeF bmpSize = bmp.GetSize();

                    Single width = bmpSize.Width > this.BmpRenderTarget.Size.Width ? this.BmpRenderTarget.Size.Width : bmpSize.Width;
                    Single height = bmpSize.Height > this.BmpRenderTarget.Size.Height ? this.BmpRenderTarget.Size.Height : bmpSize.Height;

                    Direct2D.RectangleF destRect = new Direct2D.RectangleF(origin.X, origin.X + width, origin.Y, origin.Y + height);
                    Direct2D.RectangleF srcRect = new Direct2D.RectangleF(0.0F, width, 0.0F, height);

                    this.BmpRenderTarget.BeginDraw();

                    this.FillBufferRenderTarget(this.BmpRenderTarget);

                    // do the actual draw
                    this.BmpRenderTarget.DrawBitmap(bmp, destRect, 1.0F, BitmapInterpolationMode.Linear, srcRect);

                    //tell Direct2D that a paint operation is ending
                    ResultCode result = this.BmpRenderTarget.EndDraw();
                }
            }
        }

        /// <summary>Draws a Bitmap to the render buffer</summary>
        /// <param name="bmp">Direct2D bitmap to draw to the buffer.</param>
        protected void DrawBitmapToBuffer(Direct2D.Bitmap bmp)
        {
            this.DrawBitmapToBuffer(bmp, new Point2dF(0.0F, 0.0F));
        }

        /// <summary>Duplicates the bitmap behind the existing rendering target, and drawing it to a new one, discarding the current and setting the new.</summary>
        /// <remarks>Does not lock any references, as the outside method locks</remarks>
        protected void DuplicateDoubleBufferContents(BitmapRenderTarget bmpNew)
        {
            Direct2D.Bitmap bmp = null;
            ResultCode result = ResultCode.Success_OK;

            if (this.HasFrameSet)
                bmp = Direct2dResourceManager.Instance.GetBitmapResource(this.currentFrameKey);
            else
                result = this.BmpRenderTarget.GetBitmap(out bmp);

            bmpNew.BeginDraw();

            this.FillBufferRenderTarget(bmpNew);

            //calculate the size to copy
            Direct2D.SizeF bmpSize = bmp.GetSize();

            Single width = bmpSize.Width > this.CtrlRenderTarget.Size.Width ? this.CtrlRenderTarget.Size.Width : bmpSize.Width;
            Single height = bmpSize.Height > this.CtrlRenderTarget.Size.Height ? this.CtrlRenderTarget.Size.Height : bmpSize.Height;

            //Determine the copy rectangle
            Direct2D.RectangleF rect = new Direct2D.RectangleF(0, width, 0, height);

            //Copy
            bmpNew.DrawBitmap(bmp, rect, 1.0F, BitmapInterpolationMode.Linear, rect);

            //conditionally disose the bitmap, don't if it is in the manager
            if (!this.HasFrameSet)
                bmp.Dispose();

            result = bmpNew.EndDraw();
        }

        /// <summary>Discards the current buffer and replaces it with a blank one.</summary>
        protected void DiscardCurrentBuffer()
        {
            lock (this.controlBufferLock)
            {
                BitmapRenderTarget bmpNew;

                // create a bitmap rendering target
                ResultCode result = this.CtrlRenderTarget.CreateCompatibleRenderTarget(out bmpNew);

                bmpNew.BeginDraw();
                this.FillBufferRenderTarget(bmpNew);
                result = bmpNew.EndDraw();

                //property locks, so no lock here
                this.BmpRenderTarget = bmpNew;  //replace the old buffer
            }
        }

        /// <summary>Fills the buffer render target with the background color</summary>
        /// <param name="renderTarget">Bitmap render target to fill</param>
        protected void FillBufferRenderTarget(BitmapRenderTarget renderTarget)
        {
            SolidColorBrush brush = null;

            ResultCode result = renderTarget.CreateSolidColorBrush(new ColorF(this.BackColor), out brush);

            renderTarget.FillRectangle(new Direct2D.RectangleF(new Rectangle(new Point(0, 0), this.Size)), brush);
            brush.Dispose();
        }
        #endregion


        #region Frame Resources
        /// <summary>Posts a Frame resource to the resource manager and returns a unique key to access it.</summary>
        /// <param name="resource">Frame to be posted.</param>
        /// <returns>A unique Int32 key</returns>
        public override Int32 AddFrameResource(Frame resource)
        {
            lock (this.resourceLock)
            {
                //create the bitmap
                BitmapProperties properties = new BitmapProperties(new PixelFormat(DXGI_ChannelFormat.FORMAT_B8G8R8A8_UNORM, AlphaMode.PreMultiplied), Direct2dResourceManager.Instance.Factory.GetDesktopDpi());
                SizeU dimensions = new SizeU(Convert.ToUInt32(resource.Pixels.Metadata.Width), Convert.ToUInt32(resource.Pixels.Metadata.Height));

                Direct2D.Bitmap bmp = null;
                ResultCode result = this.ResourceBmpRenderTarget.CreateBitmap(dimensions, properties, out bmp);

                Byte[] data = resource.Pixels.GetPixelData(ExternalPixelEnums.PixelFormat.RGBA_B8G8R8A8, ScanLineOrder.TopDown, 0, 0);
                result = bmp.CopyFromMemory(new RectangleU(dimensions), data, Convert.ToUInt32(resource.Pixels.Metadata.Width * 4));

                return Direct2dResourceManager.Instance.AddFrameResource(bmp);
            }
        }

        /// <summary>Frees a Bitmap resource in the resource manager and Disposes of it.</summary>
        /// <param name="frameKey">Direct2D Bitmap key to be Disposed.</param>
        public override void FreeFrameResource(Int32 frameKey)
        {
            lock (this.resourceLock)
            {
                if (frameKey > -1)
                    Direct2dResourceManager.Instance.FreeFrameResource(frameKey);
            }
        }
        #endregion


        #region Frame Setting
        /// <summary>Sets the frame to be rendered to the User Control</summary>
        /// <param name="key">Frame key to set as current image</param>
        public override void SetRenderFrame(Int32 key)
        {
            this.SetRenderFrame(key, 0, 0);
        }

        /// <summary>Sets the frame to be rendered to the User Control</summary>
        /// <param name="key">Frame key to set as current image</param>
        /// <param name="originX">X coordinate to start drawing from</param>
        /// <param name="originY">Y coordinate to start drawing from</param>
        public override void SetRenderFrame(Int32 key, Int64 originX, Int64 originY)
        {
            lock (this.controlBufferLock)
            {
                if (key > -1)
                    this.DrawBitmapToBuffer(Direct2dResourceManager.Instance.GetBitmapResource(key), new Point2dF(Convert.ToSingle(originX), Convert.ToSingle(originY)));
                else
                    this.DiscardCurrentBuffer();

                this.currentFrameKey = key;
            }
        }

        /// <summary>This method invokes the rendering. For use by the appliation to tell the control to change images on demand.</summary>
        public void Render()
        {
            this.Invalidate();
        }

        /// <summary>Sets the frame to be rendered to the User Control and then renders it</summary>
        /// <param name="key">Frame key to set as current image</param>
        public virtual void SetRenderFrameAndRender(Int32 key)
        {
            this.SetRenderFrameAndRender(key, false);
        }

        /// <summary>Sets the frame to be rendered to the User Control and then renders it</summary>
        /// <param name="key">Frame key to set as current image</param>
        /// <param name="freePreviousFrame">
        ///     Flag indicating whether to dispose of the previous image set
        ///     (in the case of transient images, such as composite images for a game or high-frame video playback)
        /// </param>
        public virtual void SetRenderFrameAndRender(Int32 key, Boolean freePreviousFrame)
        {
            this.SetRenderFrameAndRender(key, 0, 0, freePreviousFrame);
        }

        /// <summary>Sets the frame to be rendered to the User Control and then renders it</summary>
        /// <param name="key">Frame key to set as current image</param>
        /// <param name="originX">X coordinate to start drawing from</param>
        /// <param name="originY">Y coordinate to start drawing from</param>
        public virtual void SetRenderFrameAndRender(Int32 key, Int64 originX, Int64 originY)
        {
            this.SetRenderFrameAndRender(key, originX, originY, false);
        }

        /// <summary>Sets the frame to be rendered to the User Control and then renders it</summary>
        /// <param name="key">Frame key to set as current image</param>
        /// <param name="originX">X coordinate to start drawing from</param>
        /// <param name="originY">Y coordinate to start drawing from</param>
        /// <param name="freePreviousFrame">
        ///     Flag indicating whether to dispose of the previous image set
        /// </param>
        public virtual void SetRenderFrameAndRender(Int32 key, Int64 originX, Int64 originY, Boolean freePreviousFrame)
        {
            lock (this.controlBufferLock)
            {
                Int32 previousFrameKey = this.currentFrameKey;

                this.SetRenderFrame(key, originX, originY);
                this.Render();

                if (freePreviousFrame)
                    this.FreeFrameResource(previousFrameKey);
            }
        }
        #endregion
    }
}

Win32 Multimedia Timer Callback's Code

Excluded for size, but here is the relevant code, linking to "winmm.dll", EntryPoint = "timeSetEvent"

        /// <summary>Callback method for WIn32 API</summary>
        protected virtual void Win32Callback(UInt32 timerId, UInt32 message, IntPtr user, IntPtr param1, IntPtr param2)
        {
            TimeSpan raise;
            lock (this.timerLock)
            {
                //get system time for start time
                UInt32 uptime = Win32MultimediaTimeFunctions.GetEnvironmentUptime();
                Int32 upTimeSec = (Int32)(uptime / 1000);
                Int32 upTimeMilliSec = (Int32)(uptime % 1000);
                TimeSpan WinUpTime = new TimeSpan(0, 0, 0, upTimeSec, upTimeMilliSec);
                raise = WinUpTime - this.StartTime;
                //this.elapsed(raise);
                this.RaiseTimer(raise);
            }

            //Note: outside the lock, this.elapse(raise) kills the display driver
            //inside, without threading, it is fine.
            //inside, with threading, the display driver will crash after a bit of playback
        }

        protected void RaiseTimer(TimeSpan elapsedTime)
        {
            Thread timerEvent = new Thread(() => { this.RunThread(elapsedTime); });
            timerEvent.IsBackground = true;
            timerEvent.Name = "Timer callback";
            timerEvent.Start();
        }

        /// <summary>Raises the timer on a separate thread</summary>
        protected void RunThread(TimeSpan elapsedTime)
        {
            if (this.threadLock.WaitOne(0))
            {
                this.elapsed(elapsedTime);
                this.threadLock.ReleaseMutex();
            }
        }

Conclusion

After 3 weeks, I'm not ashamed to say I'm baffled by this behavior, and looking for any sort of input for identifying a race condition, something that I might be missing, architecturally speaking, about Direc2D or where I'm just showing my ignorance.

share|improve this question
    
Disclaimer: I didn't read everything here, but if you're doing DirectX anything & .NET you should look at SlimDX. –  Aren May 4 '12 at 22:43
    
And maybe XNA (there is a Winforms user control sample, google it). –  George Duckett May 5 '12 at 15:40
    
XNA is not what I'm looking for, specifically because of what I am trying to learn out of my project. If I do publicly release, it will probably end up using some sort of abstract controller for either SlimDX or SharpDX –  Erik Frantz May 7 '12 at 5:24
    
In case the comments in the answer are not clear, the issue was that I had the factory set to single threaded, and concurrent operations on Bitmaps and RenderTargets were crashing the display driver. Mutexes around all of these and their children were the poor man's fix to identify the issue, and setting the Factory to be multi-threaded is the real fix. –  Erik Frantz May 9 '12 at 5:58

1 Answer 1

up vote 1 down vote accepted

All locks statements in the code seems to be an over complicated solution. Also creating COM objects (like Direct2D1) from constructors and using them from thread UI methods is usually not a good practice.

I would simplify your application by performing all device/objects creation and rendering on the same thread, also by keeping your rendering code outside the form. Ideally, this should be totally independent, as you could render to any kind of windows/controls via the HWND or to a DXGI surface, or to a Windows 8 Metro surface.

Also, as Aren suggest, instead of using your own Direct2D1 wrapper, you should rely on an existing robust wrapper like SharpDX. It will save you to maintain a costly layer and help you to focus on your specific application.

share|improve this answer
    
According to Microsoft: "If the render target is a window, [Direct2D rendering] occurs whenever the window receives a WM_PAINT message." To me, this implies creating in the main UI thread and drawing during OnPaint (what the Windows API Code Pack does). Also, I may be showing my ignorance, but if I have a separate rendering thread, wouldn't that violate COM threading access? I would need to create a control and attach it to the form/another control from the secondary thread, violating access in either thread. –  Erik Frantz May 6 '12 at 23:33
    
@ErikFrantz, you are right about HwndRenderTarget, I have been working too much with DXGI! (Though still, my advice to decorrelate the rendering code from your windows forms control apply). What is not clear from your code execpt is what do you do in this.elapsed()? Are you accessing Direct2D resource from elapsed() function? How is created your Direct2D1 factory, single or multithreaded? If your are using single threaded Direct2D factory and are accessing concurrently Direct2D, It will probably crash. –  xoofx May 7 '12 at 2:24
    
The timer's elapsed(...) event is raising a signal to the multimedia controller to push the next frame (this is a second thread). I did some tinkering with Mutex in my wrapping layer, and it looks like creating Bitmaps from the timer thread was conflicting with the rendering... Direct2D is crashing display drivers if I create a Bitmap during a draw operation (I'm not sure what the specifics are). Of course, seeing your suggestion just now and looking at my Factory, I see it's SingleThreaded, which is fine for my original select-an-image-and-render (PNG, BMP, JPEG, etc.), but hardly for video. –  Erik Frantz May 7 '12 at 5:20
    
Then It is probably better to move your Direct2D code from the timer to the main Direct2D code, and just using a bool locked variable to notify the main Direct2D code to regenerate the bitmap... I would avoid as much as possible concurrent access to Direct2D (Multithreading mode in Direct2D is just in the end using internally a lock on each method, so you have no gain in term of performance). –  xoofx May 7 '12 at 8:39
    
After some testing with the multithreaded flag on the factory, I'm able to pull out a lot of the critical sections and whatnot. I had it set as single-threaded originally since I wrote it to pick a list of images and react/render all off of events in the UI thread (it's currently just a test and display app). –  Erik Frantz May 9 '12 at 5:55

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.