Par for the course, I see! I see some valuable information, mixed with expensive misinformation. No, the online docs do NOT every specify exactly under what circumstances the process is killed. This is deliberate, since it is subject to change without notice. Sure, the most common reason for onDestroy() to be called is that the system is running out of memory, which is less common on newer phones (since they have so much memory). But there is no guarantee that that be the ONLY reason it is called.
But yes, the 'contract' between Android and the developers is that if you follow the rules, implementing the needed lifecycle callbacks when they are needed, then it will work, and you do not NEED to know exactly under what circumstances onStop(), onSaveInstanceState() and onDestroy() are called.
Now unlike Google, I will admit that the wording of the contract is somewhat vague at points. This is because, among other lesser reasons, they use terms that have a standard industry meaning, such as 'foreground', but they use them in slightly altered senses. And the alteration is either never explained or explained only in obscure places. It also doesn't help that the diagram purports to show "the paths an activity may take between states", yet fails to show that onDestroy() can be called at many times, even bypassing the transition from Resumed to Stopped. Yet the text clearly describes that possibility.
This is why, unfortunately, reading the Application Lifecycle section of "Application Fundamentals" is simply not enough. Instead, one must also read the Javadoc for EACH of the callbacks under that for Activity, and also the section of "Application Fundamentals" on Processes.
After that, it is enormously helpful to put Log.d statements in each of the callbacks and watch the logcat output while you cycle your application through the lifecycle. But even then, do not rely on lifecycle events taking place in the order you see in logcat unless you can find justification for it in one of these online docs mentioned above.