First, let's understand what is a Memory Leak:
Memory Leak is data allocated (bitmaps, objects, arrays, etc) in the RAM that the garbage collector (GC) is unable to free, although it is not needed anymore by the program.
A user is opening a view that shows an Image. We load the bitmap to the memory. Now the user exit the view and the image is not needed anymore and there is no reference to it from the code. At that moment the GC comes into action and remove it from the memory. BUT, if we still had a reference to it, the GC will not know it is OK for removal and it would have stayed in the RAM taking unneeded space - aka Memory Leak.
Cat in A Box
Let's say we have a Cat object in our app, and we hold it in a Box object. If we hold the box (have a reference to the Box object) and the Box holds the Cat, the GC will not be able to clean the Cat object from the memory.
The Docker is a class that has a Static reference to our Box. This means that unless we nullify it, or re-assign the value, the Docker will keep referencing the Box. Preventing the Box (and the inner Cat) from ever being removed from the memory by the GC.
So, do we need the Cat? is it still relevant for the App?
This is up to the developer to decide how long we need the Cat for. LeakCanary and other diagnostic tools suggest of a possible Memory Leak. They THINK that the object (Cat) might not be needed anymore so they alert that it is a leak.
In the example, they give a common scenario of a Memory leak. When using a Static reference we prevent from the GC to clean an Object. You should read this:
* GC ROOT static Docker.container
* references Box.hiddenCat
* leaks Cat instance
- Object Cat might be not used anymore but was not removed from memory by the GC.
- The reason the object Cat was not removed is since Box is having a reference to it.
- The Reason the object Box was not removed is since the Docker has a static reference to it.
- Static reference by Docker is the ROOT of the tree that causes the possible leak.