Part of what you're asking (how and if it has changed during the execution) can only be answered by a back-in-time debugger. As far as I know some do exist, but overall that's more of a area of current research, and a massively complex problem to tackle. There's an interesting Google Tech Talk about back in time debugging. But I wouldn't know of one being readily available for Python.
The good news is, you rarely ever need one.
For your example, I would approach debugging like this:
Set a breakpoint in the the first line of that function definition:
def dummyFunction(context, data):
import pdb; pdb.set_trace()
This will kick you into pdb the first time that function is called (and on all the following calls).
Verify this by typing
l (lowercase L), which lists the line of code you're currently at and some context around it.
data to inspect the contents of
data. You can access and inspect objects like you would in the regular interactive interpreter.
w to see the call stack. The call you're currently in (
dummyFunction) is at the bottom, the one that called it is at the second to last line.
Now you want to know how
data became what it currently is. So you can move up and down the call stack, to why that function was called with that argument.
u to move up once in the call stack. You'll now be in the function that called
dummyFunction(context, data), and you'll be able to inspect the variables in the local scope of that function. So type
l again to show the code, and study what happens a few lines before the call. Any conditions? What expressions do they depend on? Evaluate those expressions and inspect local variables (try
locals()) to find out why your function was called with that argument. Check what arguments the calling function got.
Move up (
u) or down (
d) the stack as you need to. This doesn't move the instruction pointer at all, you're just peeling layers of the onion that represents your call stack.
At some point you'll know that something you care about happens at some particular line of code, but you're already past it (it's already been executed). Once you're confident that's the lead you want to follow, quit the current
pdb session (
q), remove your breakpoint and set a new one strategically placed before the interesting line of code.
Repeat until you find out what you want to know.
If any of your functions happen to be called hundreds of times, but you're only interested in a particular case, modify the code so the breakpoint will only be triggered when the conditions are met. For example:
if 'interesting' in data.keys():
import pdb; pdb.set_trace()
Following this pattern will take you a long way to understanding and debugging your or other people's code. And remember: It's just Python ;-)