From what I can find, the short answer is:
No, normally the Python interpreter does not recognize changes to a file once that file has been parsed, analyzed, and fed into the interpreter.
What you should do instead apparently is use your .py file as a module, import that as a module into another .py file, then run that new file. This allows your first file to be reloaded through the interactive interpreter. Here's an example:
from importlib import reload # Python 3.4+ only.
# Do some things.
foo = reload(foo)
I am still a little fuzzy on the details, but maybe someone can help fill those in. As far as I can tell from the sources I linked below, the interpreter basically takes some steps to load your program from the saved python file into memory (glossing over a lot of details). Once this process has been performed, the interpreter does not perform it again unless you explicitly ask it to do so, for example by using the importlib's reload() function to again perform the process.
How do I unload (reload) a Python module? (quoted above)
A Python Interpreter Written in Python:
This link has a lot more information about how the interpreter works, and I found this section particularly helpful:
Real Python Bytecode
At this point, we'll abandon our toy instruction
sets and switch to real Python bytecode. The structure of bytecode is
similar to our toy interpreter's verbose instruction sets, except that
it uses one byte instead of a long name to identify each instruction.
To understand this structure, we'll walk through the bytecode of a
short function. Consider the example below:
>>> def cond():
... x = 3
... if x < 5:
... return 'yes'
... return 'no'
Python exposes a boatload of its internals at run time, and we can access them right
from the REPL. For the function object cond, cond.code is the code
object associated it, and cond.code.co_code is the bytecode.
There's almost never a good reason to use these attributes directly
when you're writing Python code, but they do allow us to get up to all
sorts of mischief—and to look at the internals in order to understand
>>> cond.__code__.co_code # the bytecode as raw bytes
>>> list(cond.__code__.co_code) # the bytecode as numbers
[100, 1, 0, 125, 0, 0, 124, 0, 0, 100, 2, 0, 107, 0, 0, 114, 22, 0, 100, 3, 0, 83,
100, 4, 0, 83, 100, 0, 0, 83]
When we just print the bytecode, it
looks unintelligible—all we can tell is that it's a series of bytes.
Luckily, there's a powerful tool we can use to understand it: the dis
module in the Python standard library.
dis is a bytecode disassembler. A disassembler takes low-level code
that is written for machines, like assembly code or bytecode, and
prints it in a human-readable way. When we run dis.dis, it outputs an
explanation of the bytecode it has passed.
2 0 LOAD_CONST 1 (3)
3 STORE_FAST 0 (x)
3 6 LOAD_FAST 0 (x)
9 LOAD_CONST 2 (5)
12 COMPARE_OP 0 (<)
15 POP_JUMP_IF_FALSE 22
4 18 LOAD_CONST 3 ('yes')
6 >> 22 LOAD_CONST 4 ('no')
26 LOAD_CONST 0 (None)
What does all this mean? Let's look at the first instruction LOAD_CONST as an example. The number in the
first column (2) shows the line number in our Python source code. The
second column is an index into the bytecode, telling us that the
LOAD_CONST instruction appears at position zero. The third column is
the instruction itself, mapped to its human-readable name. The fourth
column, when present, is the argument to that instruction. The fifth
column, when present, is a hint about what the argument means.
How does the Python Runtime actually work?:
With Python, it uses an interpreter rather than a compiler. An
interpreter works in exactly the same way as a compiler, with one
difference: instead of code generation, it loads the output in-memory
and executes it directly on your system. (The exact details of how
this happens can vary wildly between different languages and different
importlib — The implementation of import:
When reload() is executed:
Python module’s code is recompiled and the module-level code
re-executed, defining a new set of objects which are bound to names in
the module’s dictionary by reusing the loader which originally loaded
the module. The init function of extension modules is not called a
Again, please let me know if I need to edit this answer to follow etiquette.