That's a difficult subject. Here are couple of things that will guide and help you with it.
Embrace eventual consistency. When one object updates on one thread, others will receive change notifications and update to the correct state eventually. Don't try to keep everything in sync all the time. Don't expect everything to be up to date all the time. Design your system to handle these situations. Check this video.
Use immutability especially for collections. Reading and writing to a collection from multiple threads can result in disasters. Don't do it. Use immutable collections or use snapshotting. Basically one object that will called from multiple thread will return a snapshot of the state of the collection. when a notification for a change is received, the reader (GUI in your case) will request a snapshot of the new state and update it accordingly.
Design rich Models. Don't use AnemicModels that have only setters
and getters
and let others manipulate them. Let the Model protect it's data and provide queries for it's state. Don't return mutable objects from properties of an object.
Pass data that describes changes with change notifications. This way readers (GUI) may sync their state only from the change data without having to read the target object.
Divide responsibility. Let the GUI know that it's single threaded and received notifications from the background. Don't add knowledge in your Model that it will be updated on a background thread and to know that it's called from the GUI and give it the responsibility of sending change requests to a specific thread. The Model should not care about stuff like that. It raises notifications and let subscribers handle them the way they need to. Let the GUI know that the change notification will be received on the background so it can transfer it to the UI thread.
Check this video. It describes different way you can do multithreading.
You haven't shown any code or specified language, so I'll give you an example in pseudo code using a Java/C# like language.
public class FolderIcon {
private Icon mIcon;
public Icon getIcon() { return mIcon; }
public FolderIcon(Icon icon) {
mIcon = icon;
}
}
public class FolderGUIElement : Observer {
private Folder mFolder;
private string mFolderPath;
public FolderGUIElement(Folder folder) {
mFolder = folder;
mFolderPath = mFolder.getPath();
folder.addChangeListener(this);
}
public void onSubjectChanged(change c) {
if(c instanceof PathChange) {
dispatchOnGuiThread(() => {
handlePathChange((PathChange)change);
});
}
}
handlePathChange(PathChange change) {
mFolderPath = change.NewPath;
}
}
public class Folder : Subject {
private string mPath;
private FolderIcon mIcon;
public string getPath() { return mPath; }
public FolderIcon getIcon() { return mIcon; }
public void changePath(string newPath) {
mPath = patnewPath;
notifyChanged(new PathChange(newPath));
}
public void changeIcon(FolderIcon newIcon) {
mIcon = newIcon;
notifyChanged(new IconChange(newIcon));
}
}
Notice couple of things in the example.
We are using immutable objects from Folder. That means that the GUI elements cannot get the value of Path
or FolderIcon
and change it thus affecting Folder. When changing the icon we are creating a brand new FolderIcon object instead of modifying the old one. Folder itself is mutable, but it uses immutable objects for it's properties. If you want you can use fully immutable objects. A hybrid approach works well.
When we receive change notification we read the NewPath from the PathChange. This way we don't have to call the Folder again.
We have changePath
and changeIcon
methods instead of setPath
and setIcon
. This captures the intent of our operations better thus giving our model behavior instead of being just a bag of getters
and setters
.
If you haven't read Domain Driven Design I highly recommend it. It's not about multithreading, but on how to design rich models. It's in my list of books that every developer should read. On concept in DDD is ValueObject. It's immutable and provide a great way to implement models and is especially useful in multithreaded systems.