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I'm trying to load images for GMGridView cells. The issue is that the image loading process is not that fast so I decided to go multithreading. I created a good all-in-one class for background image loading. Here are it's contents:

    public void LoadImageIntoView (string imageURL, UIImageView imageView, int index)
    {
        rwl.AcquireReaderLock (Timeout.Infinite);
        if (disposed)
            return;

        UIImage image;
        lock (locker) {
            cache.TryGetValue (imageURL, out image);
        }
        if (image != null)
            imageView.Image = image;
        else {
            new Thread (() => {
                if (MediaLoader.IsFileCached (imageURL))
                    LoadImage (index, imageURL);
                else {
                    MediaLoader loader = new MediaLoader ();
                    loader.OnCompleteDownload += (object sender, OnCompleteDownloadEventArgs e) => {
                        if (e.Success)
                            LoadImage (index, e.FileURL);
                    };
                    loader.GetFileAsync (imageURL, false, DownloadPriority.Low);
                }
            }).Start ();
        }
        rwl.ReleaseReaderLock ();
    }

    private void LoadImage (int index, string imageURL)
    {
        rwl.AcquireReaderLock (Timeout.Infinite);
        if (disposed)
            return;

        string pathToFile = MediaLoader.GetCachedFilePath (imageURL);

        UIImage uiImage = UIImage.FromFile (pathToFile);;

        // Load the image
        if (uiImage != null) {
            lock (locker) {
                cache [imageURL] = uiImage;
            }
            BeginInvokeOnMainThread (() => InsertImage (false, index, uiImage));
        }
        rwl.ReleaseReaderLock ();
    }

    private void InsertImage (bool secondTime, int index, UIImage image)
    {
        rwl.AcquireReaderLock (Timeout.Infinite);
        if (disposed)
            return;

        UIImageView imageView = FireGetImageViewCallback (index);

        if (imageView != null) {
            CATransition transition = CATransition.CreateAnimation ();
            transition.Duration = 0.3f;
            transition.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
            transition.Type = CATransition.TransitionFade;
            imageView.Layer.AddAnimation (transition, null);

            imageView.Image = image;
        } else {
            if (!secondTime) {
                new Thread (() => {
                    Thread.Sleep (150);
                    BeginInvokeOnMainThread (() => InsertImage (true, index, image));
                }).Start ();
            }
        }
        rwl.ReleaseReaderLock ();
    }

I have also tried this code for image loading inside the LoadImage method:

        UIImage loadedImage = UIImage.FromFile (pathToFile);
        CGImage image = loadedImage.CGImage;
        if (image != null) {
            CGColorSpace colorSpace = CGColorSpace.CreateDeviceRGB ();
            // Create a bitmap context from the image's specifications
            CGBitmapContext bitmapContext = new CGBitmapContext (null, image.Width, image.Height, image.BitsPerComponent, image.Width * 4, colorSpace, CGImageAlphaInfo.PremultipliedFirst);
            bitmapContext.ClearRect (new System.Drawing.RectangleF (0, 0, image.Width, image.Height));
            // Draw the image into the bitmap context and retrieve the
            // decompressed image

            bitmapContext.DrawImage (new System.Drawing.RectangleF (0, 0, image.Width, image.Height), image);
            CGImage decompressedImage = bitmapContext.ToImage ();

            // Create a UIImage
            uiImage = new UIImage (decompressedImage);

            // Release everything
            colorSpace.Dispose ();
            decompressedImage.Dispose ();
            bitmapContext.Dispose ();
            image.Dispose ();
        }

When I build and try my app it appears that from time to time images returned by my ImageLoader have artifacts inside them. Sometimes it can be white rectangles at random locations, sometimes it can be some unexpectedly colored pixels. I'll be very happy to hear a solution to this problem as the app is about to go to AppStore and this issue is a big headache.

P.S. FireGetImageViewCallback returns an UIImageView via a delegate which I set in the class's constructor. Cache is a Dictionary , locker is just an object, rwl is a ReaderWriterLock instance.

share|improve this question
    
Do the artifacts only appear with multi-threading? Does multi-threading actually improve performance? Where are the images loaded from? –  Marcus Adams Jul 12 '13 at 20:34
    
Images are loaded from the file system and yes, it takes some time for many of them to load on the UI thread. Smooth scrolling is impossible that way so going multithreading is the only option for me. I will test my app with images loading in Ui thread once again but as I remember there were no problems back then. –  Danchoys Jul 12 '13 at 20:46
    
UIKit is not thread safe. You must update UI from main thread only. Force all updates to the UI to the main (UI) thread. You can load to NSData on background thread, then update image from NSData on main thread. I'm curious if this actually improves performance though. –  Marcus Adams Jul 12 '13 at 20:58
    
Try and test scrolling a tableview with a dozen of rows, each having a different image loaded from the file system and you will notice significant lags. Reading from the fs is not fast. Setting UIImage to the UIImageVew's image property is not fast as well for creating a UIImage does not actually load it into memory. It happens when you draw it for the first time. –  Danchoys Jul 13 '13 at 5:19

1 Answer 1

up vote 0 down vote accepted

The problem was solved by using GCD instead of usual C# threading. It puts the task into the queue which makes them run one after another, but not simultaneously. This worked perfect except the fact that when you scroll down the huge list of images and all of them go into the queue, it will take much time for currently visible rows to be filled with images. That's why I applied some sort of optimization: when my ImageLoader's LoadImageIntoView method is called, it is also provided with an index, so ImageLoader knows which row was acquired last. In the task I check whether the cell, the image of which is going to be downloaded, is currently visible and if not it simply returns, allowing the next task to execute. Here's some code that illustrates this approach:

    private void LoadImage (int index, string imageURL)
    {
        DispatchQueue.GetGlobalQueue (DispatchQueuePriority.Low).DispatchAsync (() => {
            rwl.AcquireReaderLock (Timeout.Infinite);
            if (disposed)
                return;

            bool shouldDownload = false;
            lastAcquiredIndexRwl.AcquireReaderLock (Timeout.Infinite);
            shouldDownload = index <= (lastAcquiredIndex + visibleRange) && index >= (lastAcquiredIndex - visibleRange);
            lastAcquiredIndexRwl.ReleaseReaderLock ();

            if (shouldDownload) {
                string pathToFile = MediaLoader.GetCachedFilePath (imageURL);

                UIImage uiImage = null;

                // Load the image
                CGDataProvider dataProvider = new CGDataProvider (pathToFile);

                CGImage image = null;
                if (pathToFile.IndexOf (".png") != -1)
                    image = CGImage.FromPNG (dataProvider, null, false, CGColorRenderingIntent.Default);
                else
                    image = CGImage.FromJPEG (dataProvider, null, false, CGColorRenderingIntent.Default);

                if (image != null) {
                    CGColorSpace colorSpace = CGColorSpace.CreateDeviceRGB ();

                    // Create a bitmap context from the image's specifications
                    CGBitmapContext bitmapContext = new CGBitmapContext (null, image.Width, image.Height, image.BitsPerComponent, image.Width * 4, colorSpace, CGImageAlphaInfo.PremultipliedFirst | (CGImageAlphaInfo)CGBitmapFlags.ByteOrder32Little);
                    colorSpace.Dispose ();  

                    bitmapContext.ClearRect (new System.Drawing.RectangleF (0, 0, image.Width, image.Height));

                    // Draw the image into the bitmap context and retrieve the
                    // decompressed image   
                    bitmapContext.DrawImage (new System.Drawing.RectangleF (0, 0, image.Width, image.Height), image);
                    image.Dispose ();
                    CGImage decompressedImage = bitmapContext.ToImage ();
                    bitmapContext.Dispose ();

                    uiImage = new UIImage (decompressedImage);
                    decompressedImage.Dispose ();
                }

                if (uiImage != null) {
                    lock (locker) {
                        cache [imageURL] = uiImage;
                    }
                    DispatchQueue.MainQueue.DispatchAsync (() => InsertImage (false, index, uiImage));
                }
            }
            rwl.ReleaseReaderLock ();
        });
    }
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