I'm working on a UI. The base class for a UI component is
UILayout, and the entire UI is a tree of UILayout objects, with the root being a UILayout representing the entire screen. In order to contain this hierarchy, any given UILayout has a vector mChildren of
A UIManager object takes care of Updating the entire hierarchy of UILayouts. Each call to Update iterates over the vector mChildren, calling Update on each child recursively.
Because changing the shape of the vector would invalidate those iterators, adding and removing entries from mChildren is confined to the ResizeChildren method. When components need to be added or removed, they are added to one of two vectors, mChildrenPendingAddition and mChildrenPendingRemoval. Immediately before the Update loop, ResizeChildren is called, and mChildren is updated accordingly. (Please stop me if this is an asinine way of handling this particular problem.)
I'm getting an exception when I attempt to remove from mChildren all entries which are also contained in mChildrenPendingRemoval. From UILayout::ResizeChildren():
mChildren.erase(remove_if(mChildren.begin(), mChildren.end(), IntersectsWithChildrenPendingRemoval(this)), mChildren.end());
IntersectsWithChildrenPendingRemoval's comparison function calls this->ChildrenPendingRemovalContains(HUILayout ly), which does the following:
return (find(mChildrenPendingRemoval.begin(), mChildrenPendingRemoval.end(), ly) != mChildrenPendingRemoval.end());
That line sometimes fails the debug assertion vector iterators incompatible. There are plenty of existing questions on this error, but it seems like it normally indicates that two iterators from different containers are being compared. But here, that's clearly not the case, right? What else could cause this problem?
Relevant source code:
This is a plugin that I'm developing for a multi-threaded application. The fact that the problem crops up at very rare and random intervals leads me to believe it has something to do with the fact that the plugin is running in separate threads, but all of these methods are called from a single function, squarely in a single thread, and mChildren is not accessed or modified in any other thread.