Why in the example function terminates:
def func(iterable): while True: val = next(iterable) yield val
but if I take off yield statement function will raise StopIteration exception?
EDIT: Sorry for misleading you guys. I know what generators are and how to use them. Of course when I said function terminates I didn't mean eager evaluation of function. I just implied that when I use function to produce generator:
gen = func(iterable)
in case of func it works and returns the same generator, but in case of func2:
def func2(iterable): while True: val = next(iterable)
it raises StopIteration instead of None return or infinite loop.
Let me be more specific. There is a function tee in itertools which is equivalent to:
def tee(iterable, n=2): it = iter(iterable) deques = [collections.deque() for i in range(n)] def gen(mydeque): while True: if not mydeque: # when the local deque is empty newval = next(it) # fetch a new value and for d in deques: # load it to all the deques d.append(newval) yield mydeque.popleft() return tuple(gen(d) for d in deques)
There is, in fact, some magic, because nested function gen has infinite loop without break statements. gen function terminates due to StopIteration exception when there is no items in it. But it terminates correctly (without raising exceptions), i.e. just stops loop. So the question is: where is StopIteration is handled?
We can catch the StopIteration exception by writing the code inside the try block and catching the exception using the 'except' keyword and printing it on screen using the 'print' keyword.
What Is Yield In Python? The Yield keyword in Python is similar to a return statement used for returning values or objects in Python. However, there is a slight difference. The yield statement returns a generator object to the one who calls the function which contains yield, instead of simply returning a value.
To prevent the iteration to go on forever, we can use the StopIteration statement.
In Python, StopIteration is an exception which occurred by built-in next() and __next__() method in iterator to signal that iteration is done for all items and no more to left to iterate.
Note: This question (and the original part of my answer to it) are only really meaningful for Python versions prior to 3.7. The behavior that was asked about no longer happens in 3.7 and later, thanks to changes described in PEP 479. So this question and the original answer are only really useful as historical artifacts. After the PEP was accepted, I added an additional section at the bottom of the answer which is more relevant to modern versions of Python.
To answer your question about where the StopIteration
gets caught in the gen
generator created inside of itertools.tee
: it doesn't. It is up to the consumer of the tee
results to catch the exception as they iterate.
First off, it's important to note that a generator function (which is any function with a yield
statement in it, anywhere) is fundamentally different than a normal function. Instead of running the function's code when it is called, instead, you'll just get a generator
object when you call the function. Only when you iterate over the generator will you run the code.
A generator function will never finish iterating without raising StopIteration
(unless it raises some other exception instead). StopIteration
is the signal from the generator that it is done, and it is not optional. If you reach a return
statement or the end of the generator function's code without raising anything, Python will raise StopIteration
for you!
This is different from regular functions, which return None
if they reach the end without returning anything else. It ties in with the different ways that generators work, as I described above.
Here's an example generator function that will make it easy to see how StopIteration
gets raised:
def simple_generator(): yield "foo" yield "bar" # StopIteration will be raised here automatically
Here's what happens when you consume it:
>>> g = simple_generator() >>> next(g) 'foo' >>> next(g) 'bar' >>> next(g) Traceback (most recent call last): File "<pyshell#6>", line 1, in <module> next(g) StopIteration
Calling simple_generator
always returns a generator
object immediately (without running any of the code in the function). Each call of next
on the generator object runs the code until the next yield
statement, and returns the yielded value. If there is no more to get, StopIteration
is raised.
Now, normally you don't see StopIteration
exceptions. The reason for this is that you usually consume generators inside for
loops. A for
statement will automatically call next
over and over until StopIteration
gets raised. It will catch and suppress the StopIteration
exception for you, so you don't need to mess around with try
/except
blocks to deal with it.
A for
loop like for item in iterable: do_suff(item)
is almost exactly equivalent to this while
loop (the only difference being that a real for
doesn't need a temporary variable to hold the iterator):
iterator = iter(iterable) try: while True: item = next(iterator) do_stuff(item) except StopIteration: pass finally: del iterator
The gen
generator function you showed at the top is one exception. It uses the StopIteration
exception produced by the iterator it is consuming as it's own signal that it is done being iterated on. That is, rather than catching the StopIteration
and then breaking out of the loop, it simply lets the exception go uncaught (presumably to be caught by some higher level code).
Unrelated to the main question, there is one other thing I want to point out. In your code, you're calling next
on an variable called iterable
. If you take that name as documentation for what type of object you will get, this is not necessarily safe.
next
is part of the iterator
protocol, not the iterable
(or container
) protocol. It may work for some kinds of iterables (such as files and generators, as those types are their own iterators), but it will fail for others iterables, such as tuples and lists. The more correct approach is to call iter
on your iterable
value, then call next
on the iterator you receive. (Or just use for
loops, which call both iter
and next
for you at appropriate times!)
I just found my own answer in a Google search for a related question, and I feel I should update to point out that the answer above is not true in modern Python versions.
PEP 479 has made it an error to allow a StopIteration
to bubble up uncaught from a generator function. If that happens, Python will turn it into a RuntimeError
exception instead. This means that code like the examples in older versions of itertools
that used a StopIteration
to break out of a generator function needs to be modified. Usually you'll need to catch the exception with a try
/except
and then return
.
Because this was a backwards incompatible change, it was phased in gradually. In Python 3.5, all code worked as before by default, but you could get the new behavior with from __future__ import generator_stop
. In Python 3.6, unmodified code would still work, but it would give a warning. In Python 3.7 and later, the new behavior applies all the time.
When a function contains yield
, calling it does not actually execute anything, it merely creates a generator object. Only iterating over this object will execute the code. So my guess is that you're merely calling the function, which means the function doesn't raise StopIteration
because it is never being executed.
Given your function, and an iterable:
def func(iterable): while True: val = next(iterable) yield val iterable = iter([1, 2, 3])
This is the wrong way to call it:
func(iterable)
This is the right way:
for item in func(iterable): # do something with item
You could also store the generator in a variable and call next()
on it (or iterate over it in some other way):
gen = func(iterable) print(next(gen)) # prints 1 print(next(gen)) # prints 2 print(next(gen)) # prints 3 print(next(gen)) # StopIteration
By the way, a better way to write your function is as follows:
def func(iterable): for item in iterable: yield item
Or in Python 3.3 and later:
def func(iterable): yield from iter(iterable)
Of course, real generators are rarely so trivial. :-)
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