I'm implementing drag and drop QTreeView based on my custom model. All works fine, my tree displays data, drag and drop is enabled and now the last step lies ahead of me - to drop and trasfer dragged data. To do this I need to implement mimeTypes, mimeData and dropMimeData methods in my model. And now my question: Is there any easy standard way how to pass an arbitrary Python object through QMimeData? I'm doing just an internal move within QTreeView which displays hierarchy of my Python classes Person. And I want to reorder them. No drag and drop outside the application, not even outside of control. I have found only single one tutorial: link text. But is it the only way? Cannot it be done without encoding the Python object into ByteArray. I need really simple solution for my only one class Person. Thank you.
Do not try to implement drag and drop by reparenting the underlying python object. This won't work if the drag comes from outside your process; nor will it work for a copy operation (your node objects probably cannot exist in multiple places in the tree).
Think of a drag and drop "move" as three operations:
mineData() and dropMimeData() are the serialize and deserialize operations that you provide. Python provides some easy ways to implement them -- check the documentation for the pickle module. If you're lucky, pickle.dumps() and pickle.loads() will work out-of-the-box for you.
Edit: I couldn't figure out how to paste code in comments, so here's the solution my comment refers to. This is safe, in the sense that it will fail by throwing a KeyError instead of causing crashes if you happen to break your rules.
Ok, I think I have a possible solution for you.
Keep in mind that I am a complete neophyte in this area so no warranties that his a) works b) is a decent solution c) won't make a "real" programmer toss their lunch.
What I did was convert the entire ancestor tree of a particular item into a text list of row column pairs. (i.e. list the row and column of the dragged item, the row and column of its parent, the row and column of its parent's parent, etc... till we get to an invalid index - i.e. the root)
This looks something like this (this example shows that the dragged item is four levels deep):
Later, in the dropMimeData function, I reverse the list (so that it reads from the root back down to the item being dragged) and build the indexes one at a time till I get back to the originally dragged item.
Here are the snippets of code that make that all work. Again, I can't warrantee that this is a good idea, just that it appears to work and does not require that you serialize your python objects into a ByteArray.
Hope this helps.