Many Python programmers are probably unaware that the syntax of while loops and for loops includes an optional else: clause:

for val in iterable:

The body of the else clause is a good place for certain kinds of clean-up actions, and is executed on normal termination of the loop: I.e., exiting the loop with return or break skips the else clause; exiting after a continue executes it. I know this only because I just looked it up (yet again), because I can never remember when the else clause is executed.

Always? On "failure" of the loop, as the name suggests? On regular termination? Even if the loop is exited with return? I can never be entirely sure without looking it up.

I blame my persisting uncertainty on the choice of keyword: I find else incredibly unmnemonic for this semantics. My question is not "why is this keyword used for this purpose" (which I would probably vote to close, though only after reading the answers and comments), but how can I think about the else keyword so that its semantics make sense, and I can therefore remember it?

I'm sure there was a fair amount of discussion about this, and I can imagine that the choice was made for consistency with the try statement's else: clause (which I also have to look up), and with the goal of not adding to the list of Python's reserved words. Perhaps the reasons for choosing else will clarify its function and make it more memorable, but I'm after connecting name to function, not after historical explanation per se.

The answers to this question, which my question was briefly closed as a duplicate of, contain a lot of interesting back story. My question has a different focus (how to connect the specific semantics of else with the keyword choice), but I feel there should be a link to this question somewhere.

  • 22
    How about "if there is something left to iterate... else" – cricket_007 Jun 5 '16 at 13:45
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    I think you can remember it now after writing this question :) – Jasper Jun 5 '16 at 14:45
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    the else means basically, "if the continuation condition fails". In a traditional for loop, the continuation condition is typically i < 42, in which case, you can view that part as if i < 42; execute the loop body; else; do that other thing – njzk2 Jun 5 '16 at 21:52
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    This is all true, and I especially like drawoc's answer, but another thing to consider is that else is an available keyword that also makes somewhat good sense syntaxically. You may know try/except and perhaps try/except/finally, but it also has else - run this code if no exception happened. Which is btw, not the same thing as shoving this code under the try clause - exception handling is best used when narrowly targeted. So, while it makes conceptual sense - as per a number of answers here - I think it's keyword reuse at play too - run this under certain conditions. – JL Peyret Jun 6 '16 at 7:42
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    @Falanwe, there is a difference when the code is exited by break. The canonical use case is when the loop searches for something, and breaks when it finds it. The else is executed only if nothing is found. – alexis Jun 8 '16 at 8:19

14 Answers 14

up vote 208 down vote accepted

(This is inspired by @Mark Tolonen's answer.)

An if statement runs its else clause if its condition evaluates to false. Identically, a while loop runs the else clause if its condition evaluates to false.

This rule matches the behavior you described:

  • In normal execution, the while loop repeatedly runs until the condition evaluates to false, and therefore naturally exiting the loop runs the else clause.
  • When you execute a break statement, you exit out of the loop without evaluating the condition, so the condition cannot evaluate to false and you never run the else clause.
  • When you execute a continue statement, you evaluate the condition again, and do exactly what you normally would at the beginning of a loop iteration. So, if the condition is true, you keep looping, but if it is false you run the else clause.
  • Other methods of exiting the loop, such as return, do not evaluate the condition and therefore do not run the else clause.

for loops behave the same way. Just consider the condition as true if the iterator has more elements, or false otherwise.

  • 8
    This is a most excellent answer. Treat your loops like a series of elif statements and the else behaviour will expose its natural logic. – Nomenator Jun 7 '16 at 16:31
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    I also like this answer, but it is not drawing an analogy with a series of elif statements. There's an answer that does, and it has one net upvote. – alexis Jun 8 '16 at 8:15
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    well not exactly, a while loop could have the condition meet False right before it breaks, in which case the else would not run but the condition is False. Similarly with for loops it can break on the last element. – Tadhg McDonald-Jensen Jun 15 '16 at 15:16

Better to think of it this way: The else block will always be executed if everything goes right in the preceding for block such that it reaches exhaustion.

Right in this context will mean no exception, no break, no return. Any statement that hijacks control from for will cause the else block to be bypassed.

A common use case is found when searching for an item in an iterable, for which the search is either called off when the item is found or a "not found" flag is raised/printed via the following else block:

for items in basket:
    if isinstance(item, Egg):
    print("No eggs in basket")  

A continue does not hijack control from for, so control will proceed to the else after the for is exhausted.

  • 20
    Sounds very nice... but then you'd expect an else clause to be executed when things don't go right, wouldn't you? I'm already getting confused again... – alexis Jun 5 '16 at 15:43
  • I have to disagree with you on "Technically, It isn't [semantically similar to every other else]", since the else is run when none of the conditions in the for loop evaluate to True, as I demonstrate in my answer – Tadhg McDonald-Jensen Jun 5 '16 at 16:43
  • @TadhgMcDonald-Jensen You can also break the loop on a False. So the question of how the for is broken depends on the use case. – Moses Koledoye Jun 5 '16 at 16:54
  • That's right, I am asking for a way to somehow relate what happens to the English meaning of "else" (which is indeed reflected in other uses of else in python). You provide a good intuitive summary of what else does, @Moses, but not of how we could associate this behavior with "else". If a different keyword was used (e.g., nobreak as mentioned in this answer to a related question), it would be easier to make sense of. – alexis Jun 5 '16 at 16:58
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    It really has nothing to do with "things going right". The else is purely executed when the if/while condition evaluates to false or for is out of items. break exists the containing loop (after the else). continue goes back and evaluates the loop condition again. – Mark Tolonen Jun 5 '16 at 23:40

When does an if execute an else? When its condition is false. It is exactly the same for the while/else. So you can think of while/else as just an if that keeps running its true condition until it evaluates false. A break doesn't change that. It just jumps of of the containing loop with no evaluation. The else is only executed if evaluating the if/while condition is false.

The for is similar, except its false condition is exhausting its iterator.

continue and break don't execute else. That isn't their function. The break exits the containing loop. The continue goes back to the top of the containing loop, where the loop condition is evaluated. It is the act of evaluating if/while to false (or for has no more items) that executes else and no other way.

  • 1
    What you say sounds very sensible, but lumping the three termination conditions together, "until [the condition] is False or breaks/continues", is wrong: Crucially, the else clause is executed if the loop is exited with continue (or normally), but not if we exit with break. These subtleties are why I'm trying to really grok what else catches and what it does not. – alexis Jun 5 '16 at 15:31
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    @alexis yes I needed to clarify there. Edited. continue doesn't execute the else, but does return to the top of the loop which may then evaluate to false. – Mark Tolonen Jun 5 '16 at 22:11

This is what it essentially means:

for/while ...:
    if ...:
if there was a break:

It's a nicer way of writing of this common pattern:

found = False
for/while ...:
    if ...:
        found = True
if not found:

The else clause will not be executed if there is a return because return leaves the function, as it is meant to. The only exception to that which you may be thinking of is finally, whose purpose is to be sure that it is always executed.

continue has nothing special to do with this matter. It causes the current iteration of the loop to end which may happen to end the entire loop, and clearly in that case the loop wasn't ended by a break.

try/else is similar:

if there was an exception:

If you think of your loops as a structure similar to this (somewhat pseudo-code):

if condition then

   ... //execute body
   goto loop

it might make a little bit more sense. A loop is essentially just an if statement that is repeated until the condition is false. And this is the important point. The loop checks its condition and sees that it's false, thus executes the else (just like a normal if/else) and then the loop is done.

So notice that the else only get's executed when the condition is checked. That means that if you exit the body of the loop in the middle of execution with for example a return or a break, since the condition is not checked again, the else case won't be executed.

A continue on the other hand stops the current execution and then jumps back to check the condition of the loop again, which is why the else can be reached in this scenario.

  • I pretty much like this answer, but you can simplify: Omit the end label and just put the goto loop inside the if body. Maybe even outdent by putting the if on the same line as the label, and it suddenly looks very much like the orignal. – Bergi Jun 7 '16 at 1:32
  • @Bergi Yes, I think that makes it a bit clearer, thanks. – Keiwan Jun 7 '16 at 8:21

My gotcha moment with the loop's else clause was when I was watching a talk by Raymond Hettinger, who told a story about how he thought it should have been called nobreak. Take a look at the following code, what do you think it would do?

for i in range(10):
    if test(i):
    # ... work with i
    print('Loop completed')

What would you guess it does? Well, the part that says nobreak would only be executed if a break statement wasn't hit in the loop.

Usually I tend to think of a loop structure like this:

for item in my_sequence:
    if logic(item):

To be a lot like a variable number of if/elif statements:

if logic(my_seq[0]):
elif logic(my_seq[1]):
elif logic(my_seq[2]):
elif logic(my_seq[-1]):

In this case the else statement on the for loop works exactly like the else statement on the chain of elifs, it only executes if none of the conditions before it evaluate to True. (or break execution with return or an exception) If my loop does not fit this specification usually I choose to opt out of using for: else for the exact reason you posted this question: it is non-intuitive.

  • Right. But a loop runs multiple times, so it's a little unclear how you mean to apply this to a for-loop. Can you clarify? – alexis Jun 5 '16 at 17:04
  • @alexis I have redone my answer, I think it is a lot clearer now. – Tadhg McDonald-Jensen Jun 10 '16 at 5:21

Others have already explained the mechanics of while/for...else, and the Python 3 language reference has the authoritative definition (see while and for), but here is my personal mnemonic, FWIW. I guess the key for me has been to break this down into two parts: one for understanding the meaning of the else in relation to the loop conditional, and one for understanding loop control.

I find it's easiest to start by understanding while...else:

while you have more items, do stuff, else if you run out, do this

The for...else mnemonic is basically the same:

for every item, do stuff, but else if you run out, do this

In both cases, the else part is only reached once there are no more items to process, and the last item has been processed in a regular manner (i.e. no break or return). A continue just goes back and sees if there are any more items. My mnemonic for these rules applies to both while and for:

when breaking or returning, there's nothing else to do,
and when I say continue, that's "loop back to start" for you

– with "loop back to start" meaning, obviously, the start of the loop where we check whether there are any more items in the iterable, so as far as the else is concerned, continue really plays no role at all.

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    I 'd suggest that it could be enhanced by saying that the usual purpose of a for/else loop is to examine items until you've found what you're looking for and want to stop, or you run out of items. The "else" exists to handle the "you run out of items (without having found what you were looking for)" part. – supercat Jun 6 '16 at 16:14
  • @supercat: Could be, but I don't know what the most common uses are out there. The else could also be used to do something when you're simply finished with all the items. Examples include writing a log entry, updating a user interface, or signaling some other process that you're done. Anything, really. Also, some pieces of code has the "successful" case end with a break inside the loop, and the else is used to handle the "error" case where you didn't find any suitable item during the iteration (maybe that was what you were thinking of?). – Fabian Fagerholm Jun 6 '16 at 17:47
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    The case I was thinking of was precisely the case where the successful case ends with a "break", and the "else" handles a lack of success. If there's no "break" within a loop, the "else" code may as well simply follow the loop as part of the enclosing block. – supercat Jun 6 '16 at 17:57
  • Unless you need to distinguish between the case where the loop went through all the iterable items without interruption (and that was a successful case) and the case where it didn't. Then you have to put the "finalising" code in the loop's else block, or keep track of the result using other means. I basically agree, I'm just saying I don't know how people use this feature and therefore I'd like to avoid making assumptions of whether the "else handles successful case" scenario or the "else handles unsuccessful case" scenario is more common. But you have a good point, so comment upvoted! – Fabian Fagerholm Jun 6 '16 at 18:27

In Test-driven development (TDD), when using the Transformation Priority Premise paradigm, you treat loops as a generalization of conditional statements.

This approach combines well with this syntax, if you consider only simple if/else (no elif) statements:

if cond:
    # 1
    # 2

generalizes to:

while cond:  # <-- generalization
    # 1
    # 2


In other languages, TDD steps from a single case to cases with collections require more refactoring.

Here is an example from 8thlight blog:

In the linked article at 8thlight blog, the Word Wrap kata is considered: adding line breaks to strings (the s variable in the snippets below) to make them fit a given width (the length variable in the snippets below). At one point the implementation looks as follows (Java):

String result = "";
if (s.length() > length) {
    result = s.substring(0, length) + "\n" + s.substring(length);
} else {
    result = s;
return result;

and the next test, that currently fails is:

public void WordLongerThanTwiceLengthShouldBreakTwice() throws Exception {
    assertThat(wrap("verylongword", 4), is("very\nlong\nword"));

So we have code that works conditionally: when a particular condition is met, a line break is added. We want to improve the code to handle multiple line breaks. The solution presented in the article proposes to apply the (if->while) transformation, however the author makes a comment that:

While loops can’t have else clauses, so we need to eliminate the else path by doing less in the if path. Again, this is a refactoring.

which forces to do more changes to the code in the context of one failing test:

String result = "";
while (s.length() > length) {
    result += s.substring(0, length) + "\n";
    s = s.substring(length);
result += s;

In TDD we want to write as less code as possible to make tests pass. Thanks to Python's syntax the following transformation is possible:


result = ""
if len(s) > length:
    result = s[0:length] + "\n"
    s = s[length:]
    result += s


result = ""
while len(s) > length:
    result += s[0:length] + "\n"
    s = s[length:]
    result += s
  • I can't tell if this holds any water, because I am not familiar with the TPP paradigm and even after clicking through to the wikipedia page, there's too much material to absorb. How about you spell out how a loop becomes a generalization of a conditional statement, and what that means exactly? – alexis Jun 7 '16 at 18:15
  • @alexis I've added one example. I'm trying to formulate another one, to show an example of single case -> collection of cases. – BartoszKP Jun 7 '16 at 22:28
  • @meiamsome Right, thanks! Fixed :-) – BartoszKP Jun 9 '16 at 17:30

The way I see it, else: fires when you iterate past the end of the loop.

If you break or return or raise you don't iterate past the end of loop, you stop immeadiately, and thus the else: block won't run. If you continue you still iterate past the end of loop, since continue just skips to the next iteration. It doesn't stop the loop.

  • 1
    I like that, I think you're on to something. It ties in a little with how looping used to be implemented in the bad old days before loop keywords. (Namely: the check was placed at the bottom of the loop, with a goto the top on success.) But it's a shorter version of the top-voted answer... – alexis Jun 7 '16 at 18:30
  • @alexis, subjective, but I find my way of expressing it easier to think about. – Winston Ewert Jun 7 '16 at 20:31
  • actually I agree. If only because it's pithier. – alexis Jun 7 '16 at 21:09

Think of the else clause as being part of the loop construct; break breaks out of the loop construct entirely, and thus skips the else clause.

But really, my mental mapping is simply that it's the 'structured' version of the pattern C/C++ pattern:

  for (...) {
    if (test) { goto done; }

So when I encounter for...else or write it myself, rather than understand it directly, I mentally translate it into the above understanding of the pattern and then work out which parts of the python syntax map to which parts of the pattern.

(I put 'structured' in scare quotes because the difference is not whether the code is structured or unstructured, but merely whether there are keywords and grammar dedicated to the particular structure)

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    Where is the else? If you meant the done: label to stand proxy or else:, I believe you have it exactly backwards. – alexis Jun 6 '16 at 13:20
  • @alexis The 'else' code would fill in the '...' immediately before the done: label. The overall correspondence is, maybe, best said thus: Python has the else-on-loop construct so that you can express this control flow pattern without goto. – zwol Jun 6 '16 at 16:00
  • There are other ways to execute this control flow pattern, e.g. by setting a flag. That's what the else avoids. – alexis Jun 6 '16 at 18:17

The way I think about it, the key is to consider the meaning of continue rather than else.

The other keywords you mention break out of the loop (exit abnormally) whilst continue does not, it just skips the remainder of the code block inside the loop. The fact that it can precede loop termination is incidental: the termination is actually done in the normal way by evaluation of the loop conditional expression.

Then you just need to remember that the else clause is executed after normal loop termination.

If you try to pair else with for in your mind, it could be confusing. I don't think the keyword else was a great choice for this syntax, But if you pair else with break, you can see it actually makes sense.

Let me demonstrate it in human language.

for each person in a group of suspects if anyone is the criminal break the investigation. else report failure.

else is barely useful if there weren't break in the for loop anyway.

# tested in Python 3.6.4
def buy_fruit(fruits):
    '''I translate the 'else' below into 'if no break' from for loop '''
    for fruit in fruits:
        if 'rotten' in fruit:
            print(f'do not want to buy {fruit}')
    else:  #if no break
        print(f'ready to buy {fruits}')

if __name__ == '__main__':
    a_bag_of_apples = ['golden delicious', 'honeycrisp', 'rotten mcintosh']
    b_bag_of_apples = ['granny smith', 'red delicious', 'honeycrisp', 'gala', 'fuji']

do not want to buy rotten mcintosh
ready to buy ['granny smith', 'red delicious', 'honeycrisp', 'gala', 'fuji']

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